ASTM有色金属标准.B221

4.1.3Mandrel diameter for the edgewise bend test,4.1.4Place of inspection if other than at place of manufac-ture(see12.2),4.1.5Whether inspection or witness of inspection and tests by purchaser’s representative is required prior to shipment(see 12.3),4.1.6Packaging and marking(see Section13),and4.1.7Special package marking,if required(see13.4).5.Materials and Manufacture5.1Material:5.1.1The aluminum wire shall be made from rod in accordance with the requirements of Specification B233. 5.2Manufacture:5.2.1Unless otherwise specified,the manufacturer shall have the option of producing the intermediate tempers by either strain-hardening(only for H12,H14,H16and H19)or by strain-hardening and annealing(1350-O)or partial annealing H22,H24and H26)(Explanatory Note1and ANSI H35.1).5.2.1.1When the manufacturer is given the option in5.2.1, the intermediate tempers shall be specified as:H12or H22; H14or H24;H16or H26.5.2.1.2When the manufacturer is not given the option in 5.2.1,the specific temper should be specified,for example, H19,H22,etc.6.General Requirements6.1Tensile Properties—The wire shall conform to the requirements for tensile properties prescribed in Table1.6.2Resistivity—The electrical resistivity of the wire shall not exceed the following values(Explanatory Note2):6.2.1All tempers except1350-O,—0.028264V·mm2/m (17.002V·cmil/ft)at20°C,(61.0V olume Conductivity% IACS).6.2.2For1350-O—0.027898V·mm2/m(16.782V·cmil/ft) at20°C,(61.8V olume Conductivity%IACS).6.3Joints—Thefinished wire shall not contain joints except such as have passed through drawing dies or an equivalent rolling operation.Necessary joints in the wire and rods prior to final drawing or rolling shall be made in accordance with good commercial practice.6.4Bending Properties—1350-O wire shall be capable of being bent edgewise through180°around a mandrel without cracking under normal conditions of edgewise bending during manufacturing operations.The mandrel diameter shall be as agreed upon between the manufacturer and the user,and shall be not less than one half the nominal width of the material being bent.In cases where the mandrel diameter used is less than5/32in.(3.97mm)or the thickness of the wire is less than 0.020in.(0.51mm)or the ratio of width to thickness of the wire is greater than12to1,the edgewise bending properties of the wire shall be as agreed upon between the user and the manufacturer(see Explanatory Note3and Explanatory Note 4).6.5Low Stress Elongation(LSE)—The annealed wire(0 temper)shall have a minimum LSE valve of1%determined in accordance with Test Method B279.LSE test results are affected by small amounts of cold working.The specified1% minimum LSE value applies only to bare wires for further processing.7.Dimensions and Permissible Variations7.1The dimensions shall be expressed in decimal fractions of an inch or in millimetres(Explanatory Notes5-8).7.1.1The thickness shall not vary from that specified by more than the amounts shown in Table2.7.1.2The width shall not vary from that specified by more than the amount shown in Table3.7.2The wire shall have rounded corners or rounded edges as specified in Table4and as shown in Fig.1.Where rounded corners are required,the corners of the wire shall be rounded within the limits of radii25%under and25%over(as determined by a radius gage)those values specified in Table4.8.Workmanship,Finish,and Appearance8.1The wire shall be free of all imperfections not consistent with good commercial practice.9.General Methods and Conditions9.1Nominal Cross-Sectional Areas—Nominal cross-sectional areas in square mils or square millimetres shall be calculated by subtracting the area reductions due to the rounded corners or rounded edges(see Table5and Table6). Values so derived shall be rounded off in accordance with9.4 to the same number of significantfigures as used in expressing the nominal dimensions,but in no case to less than three significantfigures.9.2Nominal Mass and Lengths—Nominal linear density and lengths shall be calculated from the nominal wire dimen-sions in accordance with the following equations and shall be rounded off in thefinal values only,in accordance with9.4,to the same number of significantfigures as used in expressing the nominal dimensions,but in no case less than three significant figures.Mass per Unit Length lb/ft51.173A31026TABLE1Tensile RequirementsN OTE1—For purposes of determining conformance with these speci-fications,each calculated value of tensile strength shall be rounded off to the nearest0.1ksi,in accordance with the rounding method of Practice E29.TemperTensile StrengthMax Minksi MPa ksi MPa−014.0978.559−H12,−H2217.011712.083−H14,−H2420.013815.0103−H16,−H2622.015217.0117−H1929.020022.0152TABLE2Permissible Variations in Thickness Specified Thickness,in.(mm)Permissible Variations inThickness,in.(mm),plus andminus0.280to0.098(7.10to2.50),incl1%Under0.098to0.025(2.50to0.63),incl0.001(0.025)kg/km52.7053A1Length ft/lb5~0.85473106!/Akm/kg5~0.36969!/A1where:A=nominal cross-sectional area obtained in accordance with9.1,mil2,andA1=nominal cross-sectional area obtained in accordance with9.1,mm2.9.3Density—For the purpose of calculating linear density, (Note2),cross sections,etc.,the density of aluminum1350 shall be taken as0.0975lb/in.3(2705kg/m3)at20°C.N OTE2—The term mass per unit length is used in the standard as being technically correct,and it replaces the terms“weight”or“linear density.”9.4Rules for Rounding-Off—All calculations for the stan-dard nominal dimensions and properties shall be rounded in the final value only,in accordance with the rounding method of Practice E29.9.5For the purpose of this specification,all wire dimensions and properties shall be considered as occurring at the interna-tionally standardized reference temperature of20°C.When measurements are made at temperatures other than this,cor-rections shall be applied to bring the results to the reference temperature.10.Sampling Plan and Conformance Criteria10.1Sampling Plan—Determine the conformance of the material to the requirements of Sections6,7,and8by statistical sampling and inspection of each lot of wire presented for inspection in accordance with ASTM B830.10.2Conformance Criteria:10.2.1Failure of a specimen to conform to the applicable requirements of Section6,7,and8shall constitute failure of the production unit from which the specimen was taken. 10.2.2Any lot of wire that has been sampled in accordance with10.1and from which the number of specimens failing to comply with the requirements of Sections6,7,and8does not equal or exceed the appropriate reject number of the sampling table used shall be considered as complying with the require-ments of Sections6,7,and8.10.2.3Rejected lots may be screened to remove noncon-forming production units by testing one specimen from each production unit in the lot for the failing characteristic.11.Test Methods11.1Tensile Strength—The tensile strength,when tested in accordance with Test Methods B557,shall be obtained by dividing the maximum load carried by the specimen during the tension test by the cross-sectional area of the specimen obtained in9.1(Explanatory Note9).11.1.1If any part of the fracture takes place in the jaws of the tensile machine,or if an examination indicates that there was external damage,the value obtained may not be represen-tative of the material.In such cases,the test may be discarded and a new test made.11.2Resistivity—The electrical resistivity of the wire shall be determined by resistance measurements in accordance with Test Method B193(Explanatory Note2and Table7).11.2.1Nominal resistance and other values derived from the resistivity units shall be calculated from the nominal wire dimensions in accordance with the following equations and all values so derived shall be rounded off in thefinal value only, in accordance with9.4,to the same number of significant figures as used in expressing the nominal dimensions,but in no case to less than three significantfigures.11.2.1.1All tempers except1350-O:d-c resistance at20°C,V/ft=13.353/AV/km=28.264/A1 d-c resistance at20°C,V/lb=(11.4133106)/A2V/kg=10.449/A12Length at20°C,ft/V=0.074893Akm/V=0.035383A1 Mass at20°C,lb/V=0.0876193A2310−6kc/V=0.0957033A1211.2.1.21350-O:d-c resistance at20°C,V/ft=13.181/AV/km=27.898/A1 d-c resistance at20°C,V/lb=(11.2663106)/A2V/kg=10.313/A12Length at20°C,ft/V=0.0758673Akm/V=0.035843A1 Mass at20°C,lb/V=0.0887633A2310−6kg/V=0.0969653A12 where:A=nominal cross-sectional area of the wire obtained in accordance with9.1,mil2.A1=nominal cross-sectional area of the wire obtained in accordance with9.1,mm2.11.3Dimensional Measurements—Samples of coils,reels or spools shall be gaged at each end for both width and thickness.If the inner end is not accessible,the gaging representing the inner end shall be made on the outside end of the coil produced immediately prior to the coil under test, provided no adjustments or changes have been made in the production equipment.12.Inspection12.1Unless otherwise specified in the contract or purchase order,the manufacturer shall be responsible for the perfor-mance of all inspection and test requirements specified. 12.2All inspections and tests shall be made at the place of manufacture unless otherwise especially agreed to by theTABLE3Permissible Variations in WidthSpecified Width,in.(mm)Permissible Variations in Width in.(mm),plus and minus0.520(12.5)and over1%A Under0.520to0.315(12.5to8.00),incl0.003(0.076)Under0.315to0.098(8.00to2.50),incl1%Under0.098to0.063(2.50to1.60),incl0.001(0.025)A But not to exceed0.016in.(0.406mm).manufacturer and the purchaser at the time of the purchase.12.3The manufacturer shall afford the inspector represent-ing the purchaser all reasonable manufacturer’s facilities to satisfy him that the material is being furnished in accordance with this specification.13.Packaging and Package Marking13.1Package sizes and types shall be agreed upon between the manufacturer and the purchaser in the placing of individual orders(Explanatory Note10).13.2The wire shall be protected against damage in ordinary handling and shipping.13.3Unless otherwise agreed upon,the wire shall be shipped in continuous lengths of the following minimum masses:Minimum MassNominal Area,Mils2lb kg50001and over20090under50001to20000incl10045under20000502013.4Each package shall bear a tag showing the manufac-turer’s name or trademark,Aluminum1350and temper,size and mass of material.If additional information is to be required,it shall be arranged with the manufacturer at the time of purchase.14.Keywords14.1aluminum bare electrical conductor;aluminum wireTABLE4Requirements for Rounded Corners and Rounded EdgesN OTE1—Tabular size ranges given represent values in a preferred number series.Preferred numbers were recommended by the International Electrotechnical Commission(IEC)Technical Committee No.55for round wires in1962.An affiliate of the International Organization for Standardization,preferred numbers were also recommended by the latter group in1966for general use.In1967,the IEC recommended the extension of preferred numbers to rectangular wire sizes.Since that time,the National Electrical Manufacturers Association(NEMA)has adopted preferred numbers to rectangular sizes.N OTE2—Preferred number sizes represent geometrical series derived from either the20th(R-20)or the40th(R-40)roots of the number10.Each series represents a constant ratio between adjacent numbers.The ranges of sizes shown in this table represent R-40series for both thickness and width. These sizes are intermediate to R-20series sizes so that R-20sizes will lie within the ranges given.Original series computations are in millimetres with conversion to inches.Specified Thickness Corner Radius for Specified Width Ain.mm in.mm in.mm in.mmUnder to,incl Under to,incl0.748and over19.0and over Under0.748to0.187,inclUnder19.0to4.75,inclUnder0.187Under4.750.2800.1777.10 4.500.063 1.600.039 1.000.039 1.00 0.1770.124 4.50 3.15rounded edge B0.0310.800.0310.80 0.1240.098 3.15 2.50rounded edge B0.0310.800.0260.67 0.0980.063 2.50 1.60rounded edge B0.0310.800.0200.500.0630.025 1.600.63rounded edge B full roundededge C full rounded edge CA All nominal radii values shall have a plus or minus25%tolerance.B A rounded edge is produced by rolling wire to the size specified either with or without edging rolls or by drawing through a die(see Fig.1).C Rectangular wire with full rounded edge shall have a radius half the thickness of the wire625%.N OTE1—The arc is not necessarily tangent to theflats at point A. However the wire shall be commercially free of sharp,rough,or projecting edges.FIG.1Sections of Wire with Rounded Edges and RoundedCornersEXPLANATORY NOTESN OTE1—Soft or annealed Aluminum1350wire is a wire that has been drawn or rolled to size by customary operations and then annealed.The wire is soft and ductile and subject to damage if not properly handled.The tensile properties and conductivity refer specifically to the wire as produced and put up by the manufacturer,and before being processed by the purchaser.N OTE2—Relationships which may be useful in connection with the values of electrical resistivity prescribed in this specification are shown in Table7.Resistivity units are based on the International Annealed Copper Standard(IACS)adopted by IEC in1913,which is1/58V-mm2/m at 20°C for100%conductivity.The value of0.017241V-mm2/m and the value of0.15328V-gram/m2at20°C are respectively the internationalTABLE5Areas of Square Aluminum WireNominal Size Calculated Area ofPerfect SquareNominal CornerRadiusCalculatedDepartureNominal AreaNominal AreaWorking Valuein.mm mils A mm A in.mm mils A mm A mils A mm A mils A mm A 123456789101112 0.0508 1.2902580.64 1.664930.0160.41219.750.141772360.89 1.52315 2.363103 1.52 0.0571 1.4503260.41 2.103490.0160.41219.750.141773040.66 1.96171 3.04 1.96 0.0641 1.6284108.81 2.650840.0160.41219.750.141773889.06 2.50907 3.89 2.51 0.0720 1.8295184.00 3.344510.0160.41219.750.141774964.25 3.20274 4.96 3.200.0808 2.0526528.64 4.212020.0200.51343.360.221516185.28 3.99050 6.19 3.99 0.0907 2.3048226.49 5.307400.0200.51343.360.221517883.13 5.085887.88 5.09 0.1019 2.58810383.61 6.699090.0260.66580.280.374379803.33 6.324729.80 6.32 0.1144 2.90613087.368.443440.0260.66580.280.3743712507.088.0690712.518.07 0.1285 3.26416512.2510.653040.0320.81879.000.5671015633.4510.0859515.6310.09 0.1443 3.66520822.4913.433840.0320.81879.000.5671019943.4912.8667419.9412.87 0.1620 4.11526244.0016.931580.0320.81879.000.5671025365.0016.3644825.3616.36 0.1819 4.64033087.6121.346800.040 1.021373.440.8860931714.1720.4607131.7120.460.2043 5.18941738.4926.928000.040 1.021373.440.8860940365.0526.0419240.3726.04 0.2294 5.02752624.3633.951130.040 1.021373.440.8860951250.9233.0650451.2533.07 0.2576 6.54366357.7642.811370.040 1.021373.440.8860964984.3241.9452864.9841.93 0.28937.34883694.4953.996340.040 1.021373.440.8860982321.0553.1102582.3253.11 0.32498.252105560.0168.103100.040 1.021373.440.88609104186.5767.21701104.267.22 0.36489.266133097.0485.868890.040 1.021373.440.88609131723.6084.98280131.784.98 0.409610.404167772.16108.219890.040 1.021373.440.88609166398.72107.35380166.4107.40.460011.684211600.00136.515860.094 2.397584.82 4.89342204015.18131.62243204.0131.6A The reduction in area due to the rounding of the corners.TABLE6Calculated Reduction in Square Mils Due to Rounding of Corners of Rectangular WireN OTE1—See footnote A of Table5for preferred number sizes used in this table.Specified Thickness,in.(mm)Specified Widthin.mm in.mm in.mm 0.748and over19.0and over Under0.748to0.197,inclUnder19.0to5.00,inclUnder0.197Under5.00Calculated ReductionUnder to,incl.Under to,s2mm2mils2mm2mils2mm0.2800.1677.10 4.253407.02 2.19751305.640.858411305.640.858410.1670.132 4.25 3.35824.930.54938824.930.549380.1320.093 3.35 2.37824.930.54938536.510.362680.0930.067 2.37 1.70824.930.54938343.360.214600.0670.025 1.700.63A A A AA For wire with rounded edges,the calculated reduction in area in square mils is equivalent to214600T2,where T is the thickness of the wire in inches,and the calculated reduction in area in square mm is equivalent to0.2146T12where T1is the thickness of the wire in millimetres.For square wire see Table5.TABLE7Equivalent Resistivity ValuesN OTE1—The equivalent resistivity values for100%IACS(soft copper)were each computed from the fundamental IEC value(1⁄58V–mm2/m)using conversion factors each accurate to at least seven significantfigures.Corresponding values for other conductivities(aluminum)were derived from these by multiplying by the reciprocal of the conductivity ratios and where applicable also by the density ratios,both accurate to at least seven significant figures.Material Volume Conductiv-ity,%IACSResistivity Constants at20°CWeight VolumeV·lb/mile2V g/m2V·cmil/ft V·mm2/m u V·in.u V·cmCopper Aluminum 10061.061.8875.20436.56430.910.153270.0764540.07546410.37117.00216.7820.017240.028260.027900.678791.11281.09841.72412.82642.7898equivalent of volume and weight resistivity of annealed copper equal (tofive significant figures)to 100%conductivity.The latter term means thata copper wire 1m in length and weighing 1g would have a resistance of0.15328V .This is equivalent to a resistivity value of 875.20V -lb/mile 2,which signifies the resistance of a copper wire 1mile in length weighing1lb.It is also equivalent,for example,to 1.7241µV /cm of length of acopper bar 1cm 2in cross section.A complete discussion of this subject iscontained in NBS Handbook 100.The use of five significant figures inexpressing resistivity does not imply the need for greater accuracy ofmeasurement than that specified in Test Method B 193.The use of fivesignificant figures are required for reasonably accurate reversible conver-sion from one set of resistivity units to another.The equivalent resistivityvalues in the table were derived from the fundamental IEC value (1/58V -mm 2/m)computed to seven significant figures and then rounded to fivesignificant figures.N OTE 3—At the present time,no standard definitive test for determiningthe edgewise bend characteristics of soft rectangular aluminum wire isavailable.When such a test has been developed,it is contemplated thatSection 6of this specification will be revised to include definite testrequirements.N OTE 4—It is expected that the product furnished by the manufacturerwill withstand the specified edgewise bend during fabrication by thepurchaser and that its ability to do so will be determined prior to shipmentby means agreed upon between the purchaser and the manufacturer.N OTE 5—It is urged that gage numbers be avoided entirely in connec-tion with rectangular wire.Not only are there several systems of gagenumbers,but confusion is likely to result even if the identity of theparticular gage is known,since it may not be clear whether the gagenumber refers to the thickness dimension or to the area of a round wirehaving a diameter equal to that gage number.Definite dimensions ofthickness and width in decimal fractions of an inch are preferred (seeExplanatory Note 8).N OTE 6—Table 5gives data on the cross-sectional area of square wirein sizes 0.0508to 0.4600in.(1.290to 11.684-mm)inclusive,allowancehaving been made for reduction of the theoretical area of a perfect squarewire due to the rounding of its four corners as shown in Table 4of thisspecification.These areas are for the nominal dimensions shown inColumn 1of Table 5and do not take into account the variations in thedimensions of an actual wire as permitted by the tolerances given in thisspecification.The significance of these nominal working area values should not extend beyond the significance of the values in Column 1and it is for this reason that the nominal working area values have been rounded off as shown in Column 11.Attention is also called to the fact that the values obtained by the equations of 9.2and 11.2are for wire of nominal dimensions and do not take into account probable increase or decrease of the values due to the variations of the dimensions of an actural wire within the limits of the specified tolerances.“Square mils”is a term used to express cross-sectional area of square and rectangular sections.A square mil is the area of a square,one mil on each side.Thus,if dimensions of a rectangular section are expressed in mils,the area of that section in square mils is the product of thickness times width.The relationship between circular mils and square mils is that of a circle to its circumscribing square.Thus,1cmil =0.7854mil 2.N OTE 7—Table 6gives the calculated area in square mils to be deducted,because of the rounding of the four corners of the rectangular wire from the area of a circumscribing rectangle having the same thickness and width,in order to obtain the working met area of the wire.The areas to be deducted are based on the radii specified in Table 4of this specification and do not take into account probable increase or decrease of the area of an actual wire due to the variation in its dimensions within the limits of the tolerances given in this specification—as in the case of square wire,working met areas of rectangular wire should not extend to a number of significant figures greater than that employed in specifying its thickness and width.This is also true of any other derived values such as circular mil area,linear density or electrical resistance.N OTE 8—Square wire sizes sometimes are expressed in terms of Awg sizes,as“No.8AWG Square.”This terminology is confusing and its use is not recommended.However,when a square wire size is expressed in this manner,it refers to a square circumscribing a circle whose diameter is that of a round wire of the specified Awg size (see Explanatory Note 5).N OTE 9—The values for tensile strength of annealed and intermediate temper wire are affected by testing speed.It is therefore recommended that for compliance criteria of these tempers the testing speed should not exceed 0.5in./in.(0.5mm/mm)of gage length,or distance between grips,per minute.N OTE 10—Attention is called to the desirability for agreement between the manufacturer and the purchaser on package sizes which will be sufficiently large and yet not so heavy or bulky that the wire may likely be damaged in handling.The American Society for Testing and Materials takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM Headquarters.Your comments will receive careful consideration at a meeting of the responsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards,at the address shown below.This standard is copyrighted by ASTM,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA 19428-2959,United States.Individual reprints (single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at 610-832-9585(phone),610-832-9555(fax),or service@ (e-mail);or through the 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Designation:B315–06Standard Specification forSeamless Copper Alloy Pipe and Tube1This standard is issued under thefixed designation B315;the number immediately following the designation indicates the year of original adoption or,in the case of revision,the year of last revision.A number in parentheses indicates the year of last reapproval.A superscript epsilon(e)indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1.Scope*1.1This specification2establishes the requirements for seamless,copper alloy pipe and tube in nominal pipe sizes, both regular and extra strong,and seamless tube in straight lengths for general engineering purposes.Pipe and tube are produced in the copper alloy UNS Numbers:C61300,C61400, C63020,C65100,and C65500.N OTE1—Inquiry should be made of the manufacturer or supplier concerning the availability of product in a specific alloy.1.2The values stated in inch-pound units are to be regarded as standard.The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.1.3The following pertains only to the test method described in9.1.2of this specification.This standard does not purport to address all of the safety concerns,if any,associated with its use.It is the responsibility of the user of this standard to establish appropriate safety and health practices and deter-mine the applicability of regulatory limitations prior to use.2.Referenced Documents2.1ASTM Standards:3B846Terminology for Copper and Copper AlloysE8Test Methods for Tension Testing of Metallic Materials E18Test Methods for Rockwell Hardness and Rockwell Superficial Hardness of Metallic MaterialsE29Practice for Using Significant Digits in Test Data to Determine Conformance with SpecificationsE54Test Methods for Chemical Analysis of Special Brasses and Bronzes4E62Test Methods for Chemical Analysis of Copper and Copper Alloys(Photometric Methods)E243Practice for Electromagnetic(Eddy-Current)Exami-nation of Copper and Copper-Alloy TubesE255Practice for Sampling Copper and Copper Alloys for the Determination of Chemical CompositionE478Test Methods for Chemical Analysis of Copper Alloys3.Terminology3.1For definitions of terms related to copper and copper alloys refer to Terminology B846.3.2Definitions of Terms Specific to This Standard:3.2.1specially cleaned—sufficiently free of oxides as to exhibit the golden color associated with the alloy.4.Ordering Information4.1Include the following information when placing orders for product under this specification,as applicable:4.1.1ASTM Designation and year of issue(for example B315–XX),4.1.2Alloy(Section6,Table1),4.1.3Temper(Section7),4.1.4Dimensions,Diameter,and Wall Thickness:4.1.4.1Pipe size regular(Table3),4.1.4.2Pipe size,extra-strong(Table3),4.1.4.3Tube diameter(Table9),4.1.4.4Tube wall thickness(Table6,Table7,or Table8), 4.1.4.5Length(Table10or Table11),4.1.5Quantity or total length of each size,4.1.6Whether the product is to be subsequently welded(see Table1and Footnote B),4.1.7Finish(11.2and11.3),and4.1.8When copper alloy UNS No.C63020is ordered under this specification,tube diameter,wall thickness,length,sizes, and tolerances shall be a part of the purchase order as agreed upon between the supplier and the purchaser.4.2When product is to be subjected to welding or brazing, the purchase order or contract shall specify product to be “specially cleaned.”4.3The following options are available under this specifi-cation and must be specified in the contract or purchase order when required:1This specification is under the jurisdiction of ASTM Committee B05on Copperand Copper Alloys and is the direct responsibility of Subcommittee B05.04on Pipeand Tube.Current edition approved Feb.1,2006.Published February2006.Originallyapproved st previous edition approved in1999as B315–99.2For ASME Boiler and Pressure Vessel Code applications see related Specifi-cation SB315in Section II of that Code.3For referenced ASTM standards,visit the ASTM website,,orcontact ASTM Customer Service at service@.For Annual Book of ASTMStandards volume information,refer to the standard’s Document Summary page onthe ASTM website.4Withdrawn.*A Summary of Changes section appears at the end of this standard. Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States.4.3.1Heat identification or traceability (12.1.3.4),4.3.2Certification (Section 19),and 4.3.3Test Report (Section 20).5.Materials and Manufacture 5.1Material :5.1.1The material of manufacture shall be a cast billet,bar,tube,or so forth of copper alloy UNS No.C61300,C61400,C63020,C65100,or C65500and of such purity and soundness as to be suitable for processing in to the products prescribed herein.5.1.2In the event heat identification or traceability is required,the purchaser shall specify the details desired.N OTE 2—Because of the discontinuous nature of the processing of castings into wrought products,it is not always practical to identify a specific casting analysis with a specific quantity of finished material.5.2Manufacture :5.2.1The product shall be produced by hot-working or cold-working operations,or both.Unless otherwise specified,the product shall be finished by such cold working and annealing or heat treatment as necessary to meet the properties specified.5.2.2Copper alloy UNS No.C63020tube shall be quench hardened and tempered (TQ30)as follows:5.2.2.1Heat to 1550to 1650°F (843to 899°C)for 2-h minimum and quench in water.Then,temper at 900to 1000°F (482to 538°C)for 2-h minimum and air cool to room temperature.6.Chemical Composition6.1The material shall conform to the compositional require-ments as listed in Table 1for the copper alloy UNS No.Designation specified in the ordering information.6.2These composition limits do not preclude the presence of other elements.Limits may be established and analysis required for unnamed elements by agreement between the manufacturer and the purchaser.6.2.1When the copper concentration is specified as the remainder,the percentage of copper may be calculated as the difference between the sum of all the elements determined and 100%.6.2.1.1When all the elements listed for an alloy in Table 1are determined,the sum of the determined elements for the alloy shall be as shown in the following table:Copper Alloy UNS No.Copper Plus Named Elements,%minC6130099.8C6140099.5C6302099.5C6510099.5C6550099.57.Temper7.1The standard tempers for products described in this specification are listed as follows and in Table 2:7.1.1Alloys C61300and C61400are supplied in tempers M30(hot-extruded),O30(hot-extruded and annealed),and O61(annealed).TABLE 1Chemical RequirementsCopper Alloy UNS No.C61300A C61400C63020B C65100C65500Composition,%Max(Unless Shown as a Range or Minimum)Copper C remainder remainder 74.5min remainder remainder Lead 0.010.010.030.050.05Iron 2.0–3.0 1.5–3.5 4.0–5.50.80.8Zinc0.100.200.301.5 1.5Aluminum 6.0–7.5 6.0–8.010.0–11.0......Manganese 0.20 1.0 1.50.70.50–1.3Silicon 0.10......0.8–2.0 2.8–3.8Tin0.20–0.50...0.25......Nickel (including cobalt)0.15... 4.2–6.0...0.6Phosphorus0.0150.015.........AWhen the product is for subsequent welding applications and is so specified by the purchaser,chromium shall be 0.05%max,cadmium 0.05%max,zinc 0.05%max,and zirconium 0.05%max.BChromium shall be 0.05max and cobalt 0.20max.CIncluding silver.TABLE 2Tensile RequirementsCopper Alloy UNS No.C61300and C61400C63020C65100C65500Temper DesignationM30(Extruded)or O61(AnnealedTQ30(Quench-Hardenedand Tempered)O30(Extruded and Annealed)or O61(Annealed)H50(Extruded and Cold-Worked)O30(Extruded and Annealed)and O61(Annealed)Tensile Strength,min,ksi A(Mpa)B65(447)130(896)40(275)50(345)50(345)Yield Strength at 0.5%extension under load,ksi A (MPa)B28(193)min89(621)C10(69)min40(275)min15to 29(103to 200)Elongation in 2in.or 50mm,min %30635735A ksi =1000psi.BSee Appendix.CYield strength at 0.2%offset,min,ksi A (Mpa)B.7.1.2Alloy C63020is supplied in temper TQ30(quench hardened and tempered).7.1.3Alloy C65100is supplied in tempers O30(extruded and annealed),O61(annealed),and H50(extruded and cold worked).7.1.4Alloy C65500is supplied in tempers O30(extruded and annealed)and O61(annealed).8.Mechanical Property Requirements8.1Tensile,Yield,and Elongation:8.1.1Product furnished under this specification shall con-form to the tensile,yield,and elongation requirements pre-scribed in Table2,for the alloy specified in the ordering information,when tested in accordance with Test Methods E8.8.1.1.1Only tensile,yield,or elongation test results shall bea basis for rejection based upon mechanical properties.8.2Rockwell Hardness:8.2.1Product furnished from Alloy C63020in TQ30temper shall have a minimum hardness of26on the Rockwell C scale when tested in accordance with Test Methods E18.8.2.1.1The approximate Rockwell hardness values given are for general information and assistance in testing and shall not be used as a basis for product rejection.9.Other Requirements9.1Nondestructive Testing:9.1.1Unless otherwise agreed upon between the supplier and the purchaser,the pipe or tube shall be tested for defects either in thefinal drawn,annealed,or specified temper or in the drawn temper before thefinal anneal.Unless otherwise speci-fied,the manufacturer shall have the option of testing the pipe or tube by one of the following tests:9.1.2Electromagnetic Examination(Eddy Current)—Each tube or pipe in nominal sizes from1⁄8in.(3.2mm)up to and including21⁄2in.(63.5mm),regular and extra-strong,shall be subjected to an eddy-current test.Tests shall follow the procedures of Practice E243except for the determination of “end effect.”The pipe or tube shall be passed through an eddy-current testing unit adjusted to detect an artificial defect of a size and shape defined as follows:N OTE3—End effect is that length of the pipe or tube that travels through the coil until the testing unit has stabilized and is able to detect flaws.The magnitude of the spike generated when an end passes through the test coils is such that it disrupts testing momentarily.9.1.2.1Artificial Defects—Round bottom-notch standards with a profile as defined in Practice E243,rounded to the nearest0.001in.(0.025mm)shall be10%of the specified wall thickness.Notch-depth tolerances shall be60.0005in.(0.013mm).Alternatively,when a manufacturer uses speed-insensitive equipment that can select a maximum unbalance signal,a maximum unbalance signal of0.3%shall be used.9.1.2.2Retesting—Pipes or tubes that do not activate the signaling device of the eddy-current tester shall be considered as conforming to the requirements of this test.Lengths with discontinuities,indicated by the testing unit,at the option of the manufacturer,may be reexamined or retested to determine whether the discontinuity is cause for rejection.Signals that are found to have been caused by soil,moisture,or minor mechanical damage shall not be cause for rejection,provided the pipe or tube dimensions are still within the prescribed limits and the pipe or tube is suitable for its intended application.9.1.3Pressure Tests—Each pipe or tube selected in accor-dance with13.3shall withstand the pressure test of either 9.1.3.1or9.1.3.2.9.1.3.1Hydrostatic Test—Each pipe or tube shall withstand, without showing evidence of leakage,an internal hydrostatic pressure sufficient to subject the material to afiber stress of 7000psi(48mPa).The pipe or tube need not be tested at a hydrostatic pressure of over1000psi(6.9MPa)unless so specified.At the option of the manufacturer,annealed pipe with wall thickness up to0.083in.(2.11mm),inclusive,may be tested in the drawn condition,before annealing.Fiber stress shall be determined by the following equation for thin,hollow cylinders under tension:P52St/~D20.8t!(1) where:P=hydrostatic pressure,psi(MPa);t=thickness of pipe or tube wall,in.(mm);D=outside diameter of the pipe or tube,in.(mm);andS=allowablefiber stress of the material,psi(MPa).9.1.3.2Pneumatic Test—Each pipe or tube shall be pressur-ized to a minimum of60psi(415kPa),air for5s,without showing evidence of leakage.The test method used shall permit easy visual detection of any leakage,such as by submerging the tube under water or by pressure differential method.10.Dimensions,Mass,and Permissible Variations10.1General:10.1.1The standard method of specifying wall thickness shall be in decimal fractions of an inch.10.1.2For the purpose of determining conformance with the dimensional requirements prescribed in this specification,any measured value outside the specified limiting values for any dimension may be cause for rejection.10.1.3Tolerances on a given tube may be specified with respect to any two,but not all three,of the following:outside diameter,inside diameter,wall thickness.N OTE4—Blank spaces in the tolerance tables indicate either that the product is not generally available or that no tolerances have been established.10.2Dimensions—Dimensions and theoretical weights of nominal pipe sizes shall be in accordance with Table3. 10.3Wall Thickness Tolerances—Wall thickness tolerances for pipe shall be in accordance with Tables4and5.Wall thickness tolerances for tube shall be in accordance with Tables 6-8.10.4Diameter Tolerances—Diameter tolerances for pipe and tube shall be as follows:10.4.1Diameter Tolerances for Pipe:Nominal Pipe Size,in.(mm)Diameter Tolerance,in.(mm)11⁄2(38.1)and under+0.016–0.031(+0.40–0.79)Over11⁄2(38.1)61%of specifieddiameter10.4.2The dimensional limits of nominal pipe sizes are shown in Tables 4and 5.10.4.3Diameter tolerances for tube shall be in accordance with Table 9.TABLE 3Dimensions and Weights of Copper Alloy Pipe,Standard Pipe SizesNominal or Standard Pipe Size,in.Dimension,in.(mm)Cross-Sectional Area of Bore,in.2(cm 2)Theoretical Weight,lb/ft (kg/m)Outside DiameterInside DiameterWall ThicknessCopper Alloy UNS No.C61300and C61400C65500C65100Regular1⁄80.405(10.3)0.269(6.83)0.068(1.73)0.057(0.367)0.246(0.366)0.266(0.395)0.273(0.406)1⁄40.540(13.7)0.364(9.25)0.088(2.24)0.104(0.670)0.427(0.634)0.462(0.6860.474(0.704)3⁄80.675(17.1)0.493(12.5)0.091(2.31)0.191(1.23)0.571(0.849)0.617(0.917)0.633(0.941)1⁄20.840(21.3)0.622(15.8)0.109(2.77)0.304(1.96)0.856(1.27)0.925(1.37)0.949(1.41)3⁄4 1.050(26.7)0.824(20.9)0.113(2.87)0.533(3.44) 1.14(1.69) 1.23(1.83) 1.26(1.88)1 1.315(33.4) 1.049(26.6)0.133(3.38)0.864(3.57) 1.69(2.51) 1.83(2.72) 1.87(2.79)11⁄4 1.660(42.2) 1.380(35.1)0.140(3.56) 1.496(9.66) 2.29(3.40) 2.47(3.68) 2.53(3.77)11⁄2 1.900(48.3) 1.610(40.9)0.145(3.68) 2.036(13.1) 2.74(4.07) 2.95(4.40) 3.03(4.51)2 2.375(60.3) 2.067(52.5)0.154(3.91) 3.356(21.7) 3.67(5.45) 3.97(5.91) 4.07(6.06)21⁄2 2.875(73.0) 2.469(62.7)0.203(5.16) 4.788(30.9) 5.83(8.66) 6.30(9.37) 6.46(9.61)3 3.500(88.9) 3.068(77.9)0.216(5.49)7.393(47.7)7.62(11.3)8.24(12.3)8.45(12.6)31⁄2 4.000(102)† 3.548(90.1)0.226(5.74)9.887(63.8)9.16(13.6)9.90(14.7)10.2(15.1)4 4.500(114) 4.026(102)0.237(6.02)12.730(82.1)10.9(16.2)11.7(17.5)12.0(17.9)5 5.562(141) 5.046(128)0.258(6.55)19.998(129)14.7(21.8)15.9(23.6)16.3(24.3)6 6.625(168) 6.065(154)0.280(7.11)28.890(186)19.1(28.4)20.6(30.7)21.2(31.5)88.625(219)7.981(203)0.322(8.18)50.030(323)28.7(42.7)31.0(46.2)31.9(47.4)1010.750(273)10.020(255)0.365(9.27)78.8(508)40.8(90.1)44.1(65.6)45.2(67.3)1212.750(324)12.000(305)0.375(9.52)113.0(729)49.9(74.1)53.9(80.2)55.3(82.3)Extra Strong1⁄80.405(10.3)0.215(5.46)0.095(2.41)0.036(0.232)0.316(0.470)0.342(0.508)0.351(0.522)1⁄40.540(13.7)0.302(7.67)0.119(3.02)0.072(0.464)0.538(0.799)0.582(0.865)0.597(0.887)3⁄80.675(17.1)0.423(10.7)0.126(3.20)0.141(0.909)0.743(1.10)0.803(1.19)0.824(1.22)1⁄20.840(21.3)0.546(13.9)0.147(3.73)0.234(1.51) 1.10(1.63) 1.183(1.76) 1.214(1.80)3⁄4 1.050(26.7)0.742(18.8)0.154(3.91)0.432(2.79) 1.48(2.20) 1.60(2.39) 1.65(2.45)1 1.315(33.4)0.957(24.3)0.179(4.55)0.719(4.64) 2.19(3.25) 2.36(3.52) 2.42(3.61)11⁄4 1.660(42.2) 1.278(32.5)0.191(4.85) 1.283(8.28) 3.01(4.47) 3.26(4.85) 3.34(4.97)11⁄2 1.900(48.3) 1.500(38.1)0.200(5.08) 1.767(11.4) 3.65(5.42) 3.95(5.88) 4.05(6.03)2 2.375(60.3) 1.939(49.3)0.218(5.54) 2.953(19.1) 5.05(7.50) 5.46(8.12) 5.60(8.34)21⁄2 2.875(73.0) 2.323(59.0)0.276(7.01) 4.238(27.3)7.71(11.4)8.33(12.4)8.55(12.7)3 3.500(88.9) 2.900(73.7)0.300(7.62) 6.605(42.6)10.3(15.3)11.1(16.6)11.4(17.0)31⁄2 4.000(102) 3.364(85.5)0.318(8.08)8.888(57.3)12.6(18.7)13.6(20.2)13.9(20.8)4 4.500(114) 3.826(97.2)0.337(8.56)11.497(74.)15.1(22.4)16.3(24.2)16.7(24.9)5 5.562(141) 4.812(122)0.375(9.53)18.186(117)20.9(31.1)22.6(33.6)23.2(34.5)6 6.625(168) 5.761(146)0.432(10.9)26.067(168)28.7(42.6)31.1(46.2)31.9(47.4)88.625(219)7.625(194)0.500(12.7)45.664(295)43.6(64.8)47.2(70.2)48.4(72.0)1010.750(273)9.750(248)0.500(12.7)74.7(482)55.1(81.9)59.5(88.5)61.1(90.9)TABLE 4Dimensional Limits for Standard Pipe SizesCopper Alloy UNS No.C61300and C61400Nominal or Standard PipeSizeOutside Diameter,in.(mm)Min Max RegularExtra StrongWall Thickness,in.(mm)Min Max Wall Thickness,in.(mm)Min Max 1⁄80.405(10.3)0.374(9.50)0.421(10.7)0.068(1.73)0.061(1.55)0.075(1.91)0.095(2.41)0.086(2.18)0.105(2.67)1⁄40.540(13.7)0.509(12.9)0.556(14.1)0.088(2.24)0.079(2.01)0.097(2.46)0.119(3.02)0.107(2.72)0.131(3.33)3⁄80.675(17.1)0.644(16.4)0.691(17.6)0.091(2.31)0.082(2.08)0.100(2.54)0.126(3.20)0.113(2.87)0.139(3.53)1⁄20.840(21.3)0.809(20.5)0.856(21.7)0.109(2.77)0.098(2.49)0.120(3.05)0.147(3.73)0.132(3.35)0.162(4.11)3⁄4 1.050(26.7) 1.019(25.9) 1.066(27.1)0.113(2.87)0.102(2.59)0.124(3.15)0.154(3.91)0.139(3.53)0.169(4.29)1 1.315(33.4) 1.284(32.6) 1.331(33.8)0.133(3.38)0.120(3.05)0.146(3.71)0.179(4.55)0.161(4.09)0.197(5.00)11⁄4 1.660(42.2) 1.629(41.4) 1.676(42.6)0.140(3.56)0.126(3.20)0.154(3.91)0.191(4.85)0.172(4.37)0.210(5.33)11⁄2 1.900(48.3) 1.869(47.5) 1.916(48.7)0.145(3.68)0.131(3.33)0.160(4.06)0.200(5.08)0.180(4.57)0.220(5.59)2 2.375(60.3) 2.351(59.7) 2.399(60.9)0.154(3.91)0.139(3.53)0.169(4.29)0.218(5.54)0.196(4.98)0.240(6.10)21⁄2 2.875(73.0) 2.846(72.3) 2.904(73.8)0.203(5.16)0.183(4.65)0.223(5.66)0.276(7.01)0.248(6.30)0.304(7.72)3 3.500(88.9) 3.465(88.0) 3.535(89.8)0.216(5.49)0.194(4.93)0.238(6.05)0.300(7.62)0.270(6.86)0.330(8.38)31⁄2 4.000(102) 3.960(101) 4.040(103)0.226(5.74)0.203(5.16)0.249(6.32)0.318(8.08)0.286(7.26)0.350(8.89)4 4.500(114) 4.455(113) 4.545(115)0.237(6.02)0.213(5.41)0.261(6.63)0.337(8.56)0.303(7.70)0.371(9.42)5 5.562(141) 5.506(140) 5.618(143)0.258(6.55)0.232(5.89)0.284(7.21)0.375(9.53)0.338(8.59)0.413(10.5)6 6.625(168) 6.559(167) 6.691(170)0.280(7.11)0.252(6.40)0.308(7.82)0.432(11.0)0.389(9.88)0.475(12.1)88.625(219)8.539(217)8.711(221)0.322(8.18)0.290(7.37)0.354(8.99)0.500(12.7)0.450(11.4)0.550(14.0)1010.750(273)10.643(270)10.858(276)0.365(9.27)0.329(8.36)0.402(10.2)0.500(12.7)0.450(11.4)0.550(14.0)1212.750(324)12.623(321)12.878(327)0.375(9.53)0.338(8.59)0.413(10.5).........10.5Length Tolerances :10.5.1Length tolerances shall be in accordance with Table 10.10.5.2Schedule of Tube Lengths —Specific and stock lengths with ends shall be in accordance with Table 11.TABLE 5Dimensional Limits for Standard Pipe SizesCopper Alloy UNS No.C65100and C65500Nominal or Standard PipeSizeOutside Diameter,in.(mm)Min Max RegularExtra StrongWall Thickness,in.(mm)Min Max Wall Thickness,in.(mm)Min Max 1⁄80.405(10.3)0.374(9.50)0.421(10.7)0.068(1.73)0.065(1.65)0.083(2.11)0.095(2.41)0.090(2.29)0.123(3.12)1⁄40.540(13.7)0.509(12.9)0.556(14.1)0.088(2.24)0.084(2.13)0.102(2.59)0.119(3.02)0.107(2.72)0.144(3.66)3⁄80.675(17.1)0.644(16.4)0.691(17.6)0.091(2.31)0.086(2.18)0.103(2.62)0.126(3.20)0.120(3.05)0.146(3.71)1⁄20.840(21.3)0.809(20.5)0.856(21.7)0.109(2.77)0.104(2.64)0.122(3.10)0.147(3.73)0.140(3.56)0.166(4.22)3⁄4 1.050(26.7) 1.019(25.9) 1.066(27.1)0.113(2.87)0.107(2.72)0.124(3.15)0.154(3.91)0.146(3.71)0.171(4.34)1 1.315(33.4) 1.284(32.6) 1.331(33.8)0.133(3.38)0.126(3.20)0.145(3.68)0.179(4.55)0.170(4.32)0.196(4.98)11⁄4 1.660(42.2) 1.629(41.4) 1.676(42.6)0.140(3.56)0.133(3.38)0.151(3.84)0.191(4.85)0.181(4.60)0.207(5.26)11⁄2 1.900(48.3) 1.869(47.5) 1.916(48.7)0.145(3.68)0.138(3.51)0.156(3.96)0.200(5.08)0.190(4.83)0.216(5.49)2 2.375(60.3) 2.351(59.7) 2.399(60.9)0.154(3.91)0.146(3.71)0.164(4.17)0.218(5.54)0.207(5.26)0.233(5.92)21⁄2 2.875(73.0) 2.846(72.3) 2.904(73.8)0.203(5.16)0.193(4.90)0.217(5.51)0.276(7.01)0.262(6.65)0.295(7.49)3 3.500(88.9) 3.465(88.0) 3.535(89.8)0.216(5.49)0.205(5.21)0.230(5.84)0.300(7.62)0.285(7.24)0.321(8.15)31⁄2 4.000(102) 3.960(101) 4.040(103)0.226(5.74)0.215(5.46)0.240(6.10)0.318(8.08)0.302(7.67)0.340(8.64)4 4.500(114) 4.455(113) 4.545(115)0.237(6.02)0.225(5.72)0.252(6.40)0.337(8.56)0.320(8.13)0.360(9.14)5 5.562(141) 5.506(140) 5.618(143)0.258(6.55)0.245(6.22)0.275(6.99)0.375(9.53)0.356(9.04)0.400(10.2)6 6.625(168) 6.559(167) 6.691(170)0.280(7.11)0.266(6.76)0.298(7.57)0.432(11.0)0.410(10.4)0.461(11.7)88.625(219)8.539(217)8.711(221)0.322(8.18)0.299(7.59)0.349(8.86)0.500(12.7)0.465(11.8)0.554(13.8)1010.750(273)10.643(270)10.858(276)0.365(9.27)0.336(8.53)0.400(10.2)0.500(12.7)0.460(11.7)0.548(13.9)1212.750(324)12.623(321)12.878(327)0.375(9.53)0.345(8.76)0.410(10.4).........TABLE 6Wall Thickness Tolerances for Copper Alloy UNS No.C61300and C61400Tube (Not Applicable to Pipe)N OTE 1—Maximum deviation at any point—the following tolerances are plus and minus;if tolerances all plus or all minus are desired,double the values given.Wall Thickness,in.(mm)Outside Diameter,in.(mm)Over 5⁄8to 1(15.9to 25.4)incl Over 1to 2(25.4to 50.8)incl Over 2to 4(50.8to 102)incl Over 0.024(0.610)to 0.034(0.864),incl 0.003(0.076)0.004(0.10)0.004(0.10)Over 0.034(0.864)to 0.057(1.45),incl 0.0045(0.11)0.005(0.13)0.006(0.15)Over 0.057(1.45)to 0.082(2.08),incl 0.005(0.13)0.006(0.15)0.008(0.20)Over 0.082(2.08)to 0.119(3.02),incl 0.007(0.18)0.008(0.20)0.009(0.23)Over 0.119(3.02)to 0.164(4.17),incl0.009(0.23)0.010(0.25)0.012(0.30)TABLE 7Wall Thickness Tolerances for Copper Alloy UNS No.C65500Tube (Not Applicable to Pipe)N OTE 1—Maximum deviation at any point—the following tolerances are plus and minus:if tolerances all plus or all minus are desired,double the values given.Wall Thickness,in.(mm)Outside Diameter,A in.(mm)1⁄32to 1⁄8(0.792to 3.18),inclOver 1⁄8to 5⁄8(3.18to 15.9),incl Over 5⁄8to 1(15.9to 25.4),incl Over 1to 2(25.4to 50.8),incl Over 2to 4(50.8to 102),incl Over 4to 7(102to 173),inclOver 7to 10(173to 251),inclUp to 0.017(0.432),incl0.0025(0.064)0.0015(0.038)0.002(0.051)0.0025(0.064).........Over 0.017(0.432)to 0.024(0.610),incl 0.004(0.10)0.0025(0.064)0.0025(0.064)0.003(0.076).........Over 0.024(0.610)to 0.034(0.864),incl 0.004(0.10)0.003(0.076)0.003(0.076)0.004(0.10)0.005(0.13)......Over 0.034(0.864)to 0.057(1.45),incl 0.004(0.10)0.001(0.10)0.0045(0.11)0.0045(0.11)0.0065(0.17)0.009(0.23)...Over 0.057(1.45)to 0.082(2.08),incl ...0.0045(0.11)0.005(0.13)0.005(0.13)0.0075(0.19)0.010(0.25)0.013(0.33)Over 0.082(2.08)to 0.119(3.02),incl ...0.005(0.13)0.0065(0.17)0.0065(0.17)0.009(0.23)0.011(0.28)0.014(0.36)Over 0.119(3.02)to 0.164(4.17),incl ...0.007(0.18)0.007(0.18)0.0075(0.19)0.010(0.25)0.013(0.33)0.015(0.38)Over 0.164(4.17)to 0.219(5.56),incl ......0.009(0.23)0.010(0.25)0.012(0.30)0.015(0.38)0.018(0.46)Over 0.219(5.56)to 0.283(7.19),incl ......0.012(0.30)0.013(0.33)0.015(0.38)0.018(0.46)0.020(0.51)Over 0.283(7.19)to 0.379(9.62),incl ......0.014(0.36)6B 6B 8B 8B Over 0.379(9.62).........6B6B8B8BAWhen tube is ordered by outside and inside diameters,the maximum plus and minus deviation of the wall thickness from the nominal at any point shall not exceed the values given in this table by more than 50%.BPercent of the specified wall thickness expressed to the nearest 0.001in.(0.025mm).10.6Squareness of Cut —For pipe and tube in straight lengths,the departure from squareness of the end of any pipe or tube shall not exceed the following:TABLE 8Wall Thickness Tolerances for Copper Alloy UNS No.C65100Tube (Not Applicable to Pipe)N OTE 1—Maximum deviation at any point—the following tolerances are plus and minus:if tolerances all plus or all minus are desired,double the values given.Wall Thickness,in.(mm)Outside Diameter,A in.(mm)1⁄32(0.792)to 11⁄8(3.18),inclOver 1⁄8(3.18)to 5⁄8(15.9),incl Over 5⁄8(15.9)to 1(25.4),incl Over 1(25.4)to 2(50.8),incl Over 2(50.8)to 4(102),incl Over 4(102)to 7(213),incl Over 7(213)to 10(254),incl Up to 0.017(0.432),incl0.002(0.051)0.001(0.025)0.0015(0.038)0.002(0.051).........Over 0.017(0.432)to 0.024(0.610),incl 0.003(0.076)0.002(0.051)0.002(0.051)0.0025(0.064).........Over 0.024(0.610)to 0.034(0.864),incl 0.003(0.076)0.0025(0.064)0.0025(0.064)0.003(0.076)0.004(0.10)......Over 0.034(0.864)to 0.057(1.45),incl 0.003(0.076)0.003(0.076)0.0035(0.089)0.0035(0.089)0.005(0.13)0.007(0.18)...Over 0.057(1.45)to 0.082(2.08),incl ...0.0035(0.089)0.004(0.10)0.004(0.10)0.006(0.15)0.008(0.20)0.010(0.26)Over 0.082(2.08)to 0.119(3.02),incl ...0.004(0.10)0.005(0.13)0.005(0.13)0.007(0.18)0.009(0.23)0.011(0.28)Over 0.119(3.02)to 0.164(4.17),incl ...0.005(0.13)0.006(0.15)0.006(0.15)0.008(0.20)0.010(0.25)0.012(0.30)Over 0.164(4.17)to 0.219(5.56),incl ...0.007(0.18)0.0075(0.19)0.008(0.20)0.010(0.25)0.012(0.30)0.014(0.36)Over 0.219(5.56)to 0.283(7.19),incl ......0.009(0.23)0.010(0.25)0.012(0.30)0.014(0.36)0.016(0.44)Over 0.283(7.19)to 0.379(9.62),incl ......0.012(0.30)5B 5B 6B 6B Over 0.379(9.62),incl.........5B5B6B6BAWhen tube is ordered by outside and inside diameters,the maximum plus and minus deviation of the wall thickness from the nominal at any point shall not exceed the values given in this table by more than 50%.BPercent of the specified wall thickness expressed to the nearest 0.001in.(0.025mm).TABLE 9Average Diameter Tolerances for Tube(Not Applicable to Pipe)Copper Alloy UNS No.Tolerance,6in.(mm)ASpecified Diameter,in.(mm)C61300and C61400C65100C65500Up to 1⁄8(3.18),incl ...0.002(0.051)B 0.003(0.076)B Up to 1⁄8(3.18),incl...0.002(0.051)C 0.025(0.064)C Over 1⁄8(3.18)to 5⁄8(15.9),incl 0.004(0.10)0.002(0.051)0.0025(0.064)Over 5⁄8(15.9)to 1(25.4),incl 0.005(0.13)0.0025(0.064)0.003(0.076)Over 1(25.4)to 2(50.8),incl 0.006(0.15)0.003(0.076)0.004(0.10)Over 2(50.8)to 3(76.2),incl 0.007(0.18)0.004(0.10)0.005(0.13)Over 3(76.2)to 4(102),incl ...0.005(0.13)0.006(0.15)Over 4(102)to 5(127),incl ...0.006(0.15)0.008(0.20)Over 5(127)to 6(152),incl ...0.007(0.18)0.009(0.23)Over 6(152)to 8(203),incl ...0.008(0.20)0.010(0.25)Over 8(203)to 10(254),incl...0.010(0.25)0.013(0.33)ATolerance applies to inside or outside diameters,except as noted.BOn inside diameter.COn outside diameter.TABLE 10Length TolerancesN OTE 1—Tolerances are all plus—If all minus tolerances are desired,use the same value.If tolerances plus and minus are desired,halve the values given.LengthTolerances,in.(mm),Applicable Only to FullLength PiecesOutside Diam-eters up to 1in.(25.4mm),incl Outside Diam-eters over 1in.(25.4mm)to 4in.(102mm),inclOutside Diam-eters over 4in.(102mm)Specific lengths:Up to 6in.(152mm),incl 1⁄32(0.79)1⁄16(1.6)...Over 6in.(152mm)to 2ft 1⁄16(1.6)3⁄32(2.4)1⁄8(3.2)(610mm),inclOver 2ft (610mm)to 6ft 3⁄32(2.4)1⁄8(3.2)1⁄4(6.4)(1.83m),inclOver 6ft (1.83m)to 14ft 1⁄4(6.4)1⁄4(6.4)1⁄4(6.4)(4.27m),incl Over 14ft (4.27m)1⁄2(13)1⁄2(13)1⁄2(13)Specific lengths with ends 1(25)1(25)1(25)Stock lengths with or withoutends1A (25)1A (25)1A (25)AAs stock lengths are cut and placed in stock in advance of orders,departure from this tolerance is notpracticable.。

B1-01 冷拉铜线B2-00 中等硬度冷拉铜丝B3-01 软的或退火的铜线B5-00 电解紫铜精炼型材B6-03 锌B8-04 硬的、中等硬的或软的同心绞捻的铜导线B9-90(2003) 青铜制电车架空线B16/B16M-00 制螺钉机用易切削黄铜条材、棒材和型材B19-01 弹药筒用黄铜片、带、板、棒和圆盘(坯料)B21/B21M-01e1 海军黄铜条材、棒材和型材B22-02 桥梁和转车台用青铜铸件B23-00 白色金属轴承合金(商品名称为"巴氏合金") B26/B26M-03 铝合金砂型铸件B29-03 精炼铅B30-04 铜基合金锭B32-03 金属焊料B33-00 电气用镀锡软的或退火的铜线B36/B36M-01 黄铜板、薄板、带材及轧制棒材B37-03 钢铁制造用铝B39-79(2004) 镍B42-02e1 无缝铜管尺寸B43-98(2004) 无缝红铜管尺寸B47-95a(2001) 电车架空线用铜线B48-00 电导线用矩形和正方形软裸铜线B49-98e2 电气用经回火的铜条材B61-02 蒸气或阀门青铜铸件的标准规范B62-02 混合青铜或少量金属铸件标准规范B63-90(2001) 金属导体电阻与接触材料的电阻率的测试方法B66-95(2003) 蒸汽机车易损零件用青铜铸件B68-02 光亮退火的无缝铜管B68M-99 光亮退火的无缝铜管(米制)B69-01a 轧制锌B70-90(2001) 电加热用金属材料的电阻随温度而变化的试验方法B75-02 无缝铜管B75M-99 无缝铜管规范（米制）B76-90(2001) 电加热用镍铬和镍铬铁合金的加速寿命的试验方法B77-81(2001) 电阻合金的热电功率的测试方法B78-90(2001) 电加热用铁铬铝合金的加速寿命的试验方法B80-01e1 镁合金砂型铸件B84-90(2001) 精密电阻器用合金丝的温度-电阻常数的测试方法B85-03 铝合金压模铸件B86-03 锌合金压模铸件B88-03 无缝铜水管B88M-03 无缝铜水管(米制)B90/B90M-98 镁合金薄板和中厚板B91-97(2004) 镁合金锻件规范B92/B92M-01 回熔用镁锭和镁棒B93/B93M-03 砂型铸件、永久型模铸件和压模铸件用镁合金锭B94-94(2000) 镁合金压铸件的技术规范B96/B96M-01 一般及压力容器用铜硅合金板、薄板、带材及轧制棒材B98/B98M-03 铜硅合金粗、细棒材和型材技术规范B99/B99M-01 一般用途的铜硅合金线B100-03a 桥梁和其它结构用锻制铜合金轴承和膨胀中厚板及薄板B101-02 建筑结构用包铅铜薄板和带材B102-00 铅和锡合金压模铸件B103/B103M-98e2 磷青铜板、薄板、带材和轧制棒材B105-00 电导线用冷拉制铜合金线B106-96(2002)e1 恒温金属挠性的试验方法B107/B107M-00 镁合金挤压制棒材、条材、型材、管材和线材B108-03a 铝合金永久型模铸件B111-98(2004) 铜和铜合金无缝冷凝器管和套圈坯料B111M-98e2 铜和铜合金无缝冷凝器管和套圈坯料(米制)B114-90(2001) 分流器与精密电阻器用薄板材料的温度－电阻常数的测试方法B115-00 电解阴极铜B116-95(2001) 工业运输用9号深槽铜及8号铜制电车架空线B117-03 盐雾试验设备的使用标准惯例B121/B121M-01 含铅黄铜中厚板、薄板、带材和轧制棒材B122/B122M-01 铜镍锡合金、铜镍锌合金(镍银)和铜镍合金板、薄板、带材及轧制棒材B124/B124M-00 铜和铜合金锻制条材、棒材和型材B127-98 镍铜合金板、薄板和带材B129-02 弹筒黄铜弹壳火帽壳B130-02 商用弹头壳青铜带材B131-02 铜合金弹头火帽壳B134/B134M-01 黄铜丝B135-02 无缝黄铜管B135M-00e1 无缝黄铜管(米制)B136-84(2003) 铝表面阳极镀层的着色阻力的测定方法B137-95(2000) 单位面积阳极铝镀层重量的测定方法B138/B138M-01 锰青铜条材、棒材和型材B139/B139M-01 磷青铜条材、棒材和型材B140/B140M-01 铜锌铅棒(铅红黄铜或硬青铜).棒材和成型材B148-97(2003) 铝青铜砂型铸件B150/B150M-03 铝青铜条材、棒材和型材B151/B151M-00 铜镍锌合金(镍银)及铜镍条和棒材B152/B152M-00 铜薄板、带材、中厚板及轧制棒材技术规范B153-91(2003)e1 铜和铜合金管的膨胀试验法(针试验)B154-01 铜和铜合金的硝酸亚汞试验法B159/B159M-01 磷青铜丝技术规范B160-99 镍条和镍棒技术规范B161-03 无缝镍管B162-99 镍板、薄板及带材B163-04 冷凝器及热交换器用无缝镍和镍合金管B164-03 镍铜合金条材、棒材和线材B165-93(2003)e1 无缝镍铜合金管规范B166-04 镍铬铁合金及镍铬钴钼合金条材、棒材及线材B167-01 无缝镍铬铁合金管B168-01 镍铬铁合金及镍铬钴钼合金板、薄板和带材B169/B169M-01 铝青铜中厚板、薄板、带材和轧制棒材B170-99(2004) 无氧电解铜精炼型材B171/B171M-04e1 压力容器、冷凝器及热交换器用铜合金中厚板和薄板B172-01a 电导线用成束绞绳铜导线B173-01a 导线用同芯多股绞绳铜导线B174-02 电导线用成束绞捻的铜导线B176-04 压铸件铜合金压模铸件B177-01 工程用钢表面镀铬B179-03 砂型铸件、永久型模铸件和压模铸件用铝合金锭及其熔化成形方式B183-79(2004)e1 电镀用低碳钢的制备B187/B187M-03 铜汇流棒、条和型材B188-02 汇流无缝铜管B193-02 导电材料电阻率的测试方法B194-01e1 铜铍合金中厚板、薄板、带材和轧制棒材B196/B196M-03 铜铍合金条及棒B197/B197M-01 铜铍合金线B199-99 镁合金永久型铸件B200-85(2004) 钢及铁合金表面铅和铅锡合金的电解沉积镀层B201-80(2000) 锌和镉的表面铬酸盐覆层试验B206/B206M-97(2002) 铜镍锌合金线(镍银)和铜镍合金线B208-04 砂型、永久型、离心型和连续铸造铸件用的铜基合金拉伸试验样件制备标准惯例B209-04 铝及铝合金薄板和中厚板的技术规范B209M-04 铝及铝合金薄板和中厚板的技术规范(米制)B210-02 拉制无缝铝和铝合金管B210M-02 拉制无缝铝和铝合金管(米制)B211-03 铝及铝合金棒材、条材和线材B211M-03 铝及铝合金棒材、条材和线材(米制)B212-99 高流动性金属粉末表观密度的测试方法B213-03 金属粉末流速的测试方法B214-99 粒状金属粉末的筛分试验方法B215-96 金属粉末的最后批量抽样方法B216-97(2003) 锻制品及合金用韧性火法精炼铜-精炼型材B221-02 铝及铝合金挤压制条、棒、线、管和型材B221M-02 铝和铝合金挤压制棒材、条材、线材、型材和管材(米制)B223-03 恒温器用复合金属的弹性模量测试法(悬臂梁法)B224-04 铜的分类方法B226-04 有心的圆形同心绞捻铜导线B227-04 冷拉包铜钢丝B228-04 同心绞捻的包铜钢导线B229-04 同心绞捻的铜与包铜钢丝复合导线B230/B230M-99(2004) 电气用1350-H19型铝线B231/B231M-04 同心绞捻铝1350导线B232/B232M-01e1 涂覆钢芯加强的同心绞捻铝导线(ACSR)B233-97(2003)e1 电气用1350铝拉制坯料B234-02 冷凝器及热交换器用拉制铝和铝合金无缝管B234M-02 冷凝器及热交换器用拉制铝和铝合金无缝管(米制)B236-00 电气用铝棒(汇流条)B236M-00 电气用铝棒(汇流条)(米制)B237-01 精炼锑标准规范B240-03 压模铸造用锌及锌铝合金锭B241/B241M-02 铝及铝合金无缝管和挤压制无缝管B242-99 电镀用高碳钢的制备B243-04a 粉末冶金的术语B244-97(2002) 用涡流仪器测量铝阳极镀层及其它非磁性基底金属绝缘体电镀层厚度的方法B246-00 电工用中硬拉和硬拉镀锡铜线材的标准规范B247-02a 铝和铝合金压模锻件、手工锻件和轧制环锻件B247M-02a 铝及铝合金压模锻件、手工锻件和轧制环形锻件(米制)B248-01e1 锻造铜及铜合金板、薄板、带及轧制棒材B248M-01e1 锻造铜及铜合金板、薄板、带及轧制棒材(米制)B249/B249M-02 铜和铜合金棒材、型材及锻件B250/B250M-01 锻造铜合金丝B251-02e1 锻制无缝铜及铜合金管B251M-97(2003) 锻制无缝铜及铜合金管(米制)B252-92(2004) 电镀层和转化涂层用锌合金压模铸件的制备B253-87(1999)e1 电镀用铝合金的制备B254-92(2004)e1 不锈钢上各类金属电镀的标准惯例B258-02 作电导体的实心圆导线的美国线规的标准公称直径和横截面积的技术规范B263-04 多股绞合导线横截面积的测试方法B265-03 钛及钛合金板、薄板及带材B267-90(2001) 绕线电阻器用电阻丝B271-96(2003) 铜基合金离心铸件的技术规范B272-02 有精制边缘的(轧制或拉制的)扁铜制品(扁丝或带)B275-04 某些锻造和锻造有色金属及合金统一牌号编制标准惯例B276-91(2000) 硬质合金表观孔隙率的测试方法B277-95(2001) 电接触材料硬度的测试方法B279-04 制造磁导线用方形和矩形软裸铜线及铝线硬度的测试方法B280-03 空气调节及制冷设备用无缝铜管B281-88(2001) 电镀层和转化镀层用铜和铜基合金的制备B283-04 铜及铜合金压模锻件(热压)B286-02 电气设备用铜连接线B294-92(2001) 硬质合金硬度的测试方法B296-03 铸造和锻造镁合金的回火标志B298-99e1 镀银的软的或退火的铜线B299-01 海绵钛B301/B301M-04 易切削铜条及铜棒B302-02 无螺纹铜管B306-02 铜排水管(DWV)B308/B308M-02 6061-T6型铝合金结构型材B311-93(2002)e1 孔隙度小于2％的粉末冶金材料密度的标准测试方法B312-96(2002) 金属粉末生压坯强度的测试方法B313/B313M-02e1 焊接铝和铝合金圆管B315-99 无缝铜合金管B316/B316M-02 铝及铝合金铆钉和冷镦头线材与棒材的技术规范B317-02 电气用挤压铝和铝合金棒、条、管及结构型材(汇流导体)B319-91(2004) 电镀用铅和铅合金的制备B320-60(2003)e1 电镀用铁铸件的制备B322-99 电镀前的金属清洗B324-01 电气用矩形和方形铝线B327-01e2 压铸模合金用母合金的技术规范B328-96(2003) 烧结金属结构零件和油浸轴承密度与互连多孔性的试验方法B329-98(2003)e1 用斯科特(Scott)容积计测定耐火金属粉末及化合物表观密度的试验方B330-02 用费歇尔亚筛分粒器测定耐火金属粉末及化合物的平均粒度的试验方法B331-95(2002) 单轴压缩中金属粉末的可压缩性试验方法B333-03 镍钼合金板、薄板和带材B335-03 镍钼合金条材技术规范B338-03 冷凝器和热交换器用无缝及焊接钛与钛合金管B339-00 锡锭B341/B341M-02 钢筋加强铝导线(ACSR/AZ)用包铝钢芯线B343-92a(2004)e1 镍电镀用镍的制备B344-01 拉制或轧制的镍铬和镍铬铁合金电热元件规范B345/B345M-02 铝和铝合金无缝管和气体和石油传输和分配管道系统的无缝挤压成型管的标准规范B348-03 钛及钛合金棒和坯锭B349/B349M-03 核设施用海绵锆和其它形状的纯金属锆B350/B350M-02 核设施用锌和锌合金铸锭B351/B351M-02 核设施用热轧和冷加工锆及锆合金棒、条和线材B352/B352M-02 核设施用锆及锆合金板、薄板和带材B353-02 核设备用锻制的无缝与焊接锆及锆合金管B354-98 不绝缘的金属电导体的相关术语B355-95(2003) 软的或退火的镀镍铜丝B359/B359M-02 具有整体散热叶片的冷凝器及热交换器用无缝铜和铜合金管B360-01 限流器用冷拉铜毛细管B361-02 工厂加工的锻制铝及铝合金焊接配件B362-91(2003) 恒温双金属制螺旋线圈的机械扭转率的试验方法B363-03a 无缝和焊接纯钛及钛合金焊接配件B364-96(2002) 钽及钽合金铸锭B365-98(2004) 钽及钽合金条和线材B366-04a 工厂加工的锻制镍和镍合金焊接配件B367-93(2004) 钛和钛合金铸件B368-97(2003)e1 加速铜氧化的醋酸盐喷雾试验(CASS试验)B369-96(2003) 铜镍合金铸件B370-03 建筑结构用铜薄板和带材B371/B371M-02 铜锌硅合金条规范B372-97(2003) 无缝铜及铜合金矩形波导管B373-00 电容器用铝箔B374-96(2003) 电镀的相关术语B379-04 增磷铜精炼型材B380-97(2002) 装饰电镀层的涂膏密室耐腐蚀试验方法B381-03 钛及钛合金锻件B386-03 钼和钼合金板、薄板、带材和箔B387-90(2001) 钼及钼合金棒、条和线材B388-00 恒温双金属薄板和带材B389-81(2004) 恒温双金属螺旋形线圈的热偏转率的测试方法B390-92(2000) 钨硬质合金表观晶粒度及其分布的评定B391-03 铌和铌合金铸锭B392-03 铌和铌合金棒、条及线材B393-03 铌和铌合金带材、薄板及中厚板B394-03 铌和铌合金无缝及焊接管B395/B395M-02 热交换器及冷凝器用U型无缝铜和铜合金管B398/B398M-02 电气用6201-T81型铝合金线B399/B399M-99 同心绞捻的6201-T81型铝合金导线B400-04 紧密的圆形同芯绞捻1350型铝导线B401-99 紧密的圆形钢芯加强同心绞捻铝导线(ACSR/COMP)B403-02 镁合金熔模铸件规范B404/B404M-02 带有整体散热片的冷凝器与热交换器用铝和铝合金无缝管B406-96(2000) 硬质合金横向断裂强度的测试方法B407-01 镍铁铬合金无缝管B408-01 镍铁铬合金条和棒B409-01 镍铁铬合金板、薄板和带材B411/B411M-01 铜镍硅合金条及棒B413-97a（2003）精炼银规范B415-98(2002) 冷拉制包铝钢丝B416-98(2002) 同心绞捻包铝钢导线B417-00 流动性不好的金属粉末的表观密度测试方法B418-01 铸造和锻造镀锌阳极B422-04 铜铝硅钴合金、铜镍硅镁合金及铜镍铝镁合金薄板和带材B423-03 镍铁铬钼铜合金无缝管B424-98a 镍铁铬钼铜合金板、薄板及带材B425-99 镍铁铬钼铜合金条及棒B427-02 齿轮青铜合金铸件规范B428-93(2004) 矩形和正方形铜和铜合金管扭转角的测试方法B429-02 挤压制铝合金结构管B430-97(2001) 用比浊法测定耐火金属粉末粒度分布的试验方法B432-04 包铜及包铜合金的钢板B434-00 镍钼铬铁合金板、薄板和带材B435-03 统一编制牌号为NO6002、NO6230、N12160和R30556的板材和带材及牌号为N06002、N06230和R30556的带材B438/B438M-04 青铜烧结轴承(油浸的)B439-00e1 铁基烧结轴承(油浸的)B440-00 镉B441-04 铜钴铍及铜镍铍条和棒B443-00e1 镍铬钼钶合金板、薄板和带材B444-03 镍铬钼钶合金管B446-03 镍铬钼钶合金条和棒B447-02 焊接铜管B449-93(2004) 铝的铬酸盐处理B452-02 电子设备用包铜钢导线B453/B453M-01 铜锌铅合金(含铅黄铜)条材B455-01 铜锌铅合金（含铅黄铜）挤压型材技术规范B456-03 铜+镍+铬及镍+铬的电解沉积镀层B457-67(2003) 铝表面阳极镀层阻抗的测量方法B462-04 腐蚀高温作业用锻制或轧制的UNS NO8020、UNS NO8024、UNS NO8026和UNS NO8367型合金管法兰、锻制配件、阀门及零件B463-04 UNS NO8020、UNS NO8024和UNS NO8026合金板、薄板及带材B464-04 焊接的UNS NO8020、NO8024和NO8026合金管B465-04 铜铁合金板、薄板、带材和轧制棒材B466/B466M-03 无缝铜镍合金管B467-88(2003) 焊接铜镍管B468-04 焊接的UNS NO8020、NO8024和NO8026合金管B470-02 电子设备布线用连接铜导线B472-04 再锻用UNS NO8020、UNS NO8026、UNS NO8024、UNS NO8926和UNS NO8367镍合金坯段和棒材B473-96(2002)e1 UNS NO8020、UNS NO8026及UNS NO8024镍合金棒和线B474-03 电熔焊的UNS NO8020、UNS NO8026和UNS NO8024镍合金管B475-96(2002)e1 UNS NO8020、UNS NO8026及UNS NO8024镍合金圆编织线B476-01 锻制贵金属电接触材料B477-97(2002) 金银镍电接触合金B478-85(2003) 恒温双金属横向弯曲率的测试方法B479-00 挠性栅栏用退火铝及铝合金箔B480-88(2001) 电镀用镁和镁合金的制备B481-68(2003)e1 电镀用钛和钛合金的制备B482-85(2003) 电镀用钨和钨合金的制备B483/B483M-03 普通拉制铝及铝合金管B487-85(2002) 用横断面显微观察法测定金属及氧化物涂层厚度的方法B488-01 工程用电解沉积镀金层B489-85(2003) 金属表面电解沉积和自动催化沉积金属镀层延展性的弯曲试验B490-92(2003) 用测微计弯曲试验法测定电解沉积物的延展性B491/B491M-00 普通挤压铝和铝合金圆管B493-01(2003) 锆及锆合金锻件B494/B494M-03 原生锆B495-01 锆及锆合金铸锭B496-04 紧密的圆形同心绞捻铜导线B497-00 闭合电弧接点上电压降的测量B498/B498M-98(2002) 钢芯加强的铝导线用镀锌钢芯线(ACSR)B499-96(2002) 用磁性法测量磁性基底金属的非磁性镀层厚度的方法B500/B500M-98(2002) 钢芯加强的铝导线用镀金属层的钢芯线(ACSR)B501-99 电气用镀银包铜钢丝B502-02 包铝钢芯加强的铝导线用包铝钢芯线B504-90(2002) 用库仑法测量金属镀层厚度的试验方法B505/B505M-02 连续浇铸的铜基合金铸件B507-86(2003) 机件在支架上电镀的设计B508-97(2003) 柔性金属软管用的铜合金带材规范B511-01 镍铁铬硅合金棒材和型材规范B512-04 镍铬硅合金（UNS N08330）坯锭和棒材规范B514-95(2002)e1 焊接镍铁铬合金管规范B515-95(2002) 统一编制牌号为UNS N08120、NO8800、NO8810和N0811焊接合金管规范B516-03 焊接镍铬铁合金(UNS N06600, UNS N06603, UNS N06025, 和UNS N06045）管规范B517-03 焊接的镍铬铁合金(UNS N06600, UNS N06603, UNS N06025, and UNS N06045)管规范B520-93(2002)e1 电子方面用镀锡包铜钢丝的规范B521-98（2004）钽和钽合金无缝和焊接管规范B522-01 金银铂电接触合金规范B523/B523M-02 无缝和焊接的锆及锆合金管材技术规范B524/B524M-99 铝合金芯增强的同心绞捻铝导线(ACAR,1380/6201)B527-93(2000)e1 用塔普-帕克(Tap-Pak)容量计测定耐火金属及化合物粉末的塔普(Tap)密度的试验方法B528-99 烧结金属粉末样品的横向断裂强度的试验方法B530-02 用磁性法测量磁性和非磁性基底上的电解沉积镀镍层厚度的方法B532-85(2002) 电镀塑料表面外观B533-85(2004) 测量塑料表面金属镀层抗撕裂强度的标准试验方法B534-01 铜钴铍合金及铜镍铍合金板、薄板、带材和轧制棒材B535-04 镍铁铬硅合金无缝管B536-02 镍铁铬硅合金板、薄板及带材B537-70(2002) 评定电镀板在大气暴露情况下耐腐蚀性能的标准惯例B539-02e1 电气连接的接触电阻的测量方法(静态接触)B540-97(2002) 电接触用钯合金B541-01 电接触用金合金B542-04 电接点及其应用的相关术语B543-96(2003) 焊接的铜及铜合金热交换管B545-97(2004)e1 电解沉积锡镀层B546-04 电熔焊接镍铬钴钼合金（N06617），镍铁铬硅合金（N08330和N08332）镍铬铁合金（N06025）和镍铬铁硅合金（N06045）管的技术规范B547/B547M-02 铝及铝合金成形并用电弧焊焊接的圆管技术规范B548-03 压力容器用铝合金板的超声波检验B549-00 包铝钢芯加强的同芯绞捻铝导线(ACSR/AW)B550/B550M-02 锆及锆合金棒材和丝材技术规范B551/B551M-04 锆及锆合金带材、薄板材和厚板材技术规范B552-98（2004）水淡化厂用无缝和焊接铜/镍管。

astm 铜锌锡标准
ASTM是美国材料和试验协会（American Society for Testing and Materials）的简称。

该组织制定了许多材料标准，包括铜、锌和锡等金属的标准。

以下是ASTM针对铜、锌和锡的一些常见标准：
1. 铜标准：ASTM B88是用于铜水管和管件的标准规范。

ASTM B152和ASTM B187涵盖了铜板、带和棒材的要求。

ASTM B280是用于硬质铜管的标准规范。

2. 锌标准：ASTM B6规定了用于涂锌的锌的要求。

ASTM B69涵盖了锌和锌-铝合金被镀的钢铁制品的要求。

3. 锡标准：ASTM B32规定了用于焊接和流延锡的要求。

ASTM B339规范了用于电子设备的软焊锡的要求。

这只是一些常见的ASTM铜、锌和锡标准的示例。

ASTM还有很多其他与这些金属相关的标准。

如果您想了解特定的标准，请提供更具体的要求。

B1-01 冷拉铜线B2-00 中等硬度冷拉铜丝B3-01 软的或退火的铜线B5-00 电解紫铜精炼型材B6-03 锌B8-04 硬的、中等硬的或软的同心绞捻的铜导线B9-90(2003) 青铜制电车架空线B16/B16M-00 制螺钉机用易切削黄铜条材、棒材和型材B19-01 弹药筒用黄铜片、带、板、棒和圆盘(坯料)B21/B21M-01e1 海军黄铜条材、棒材和型材B22-02 桥梁和转车台用青铜铸件B23-00 白色金属轴承合金(商品名称为"巴氏合金") B26/B26M-03 铝合金砂型铸件B29-03 精炼铅B30-04 铜基合金锭B32-03 金属焊料B33-00 电气用镀锡软的或退火的铜线B36/B36M-01 黄铜板、薄板、带材及轧制棒材B37-03 钢铁制造用铝B39-79(2004) 镍B42-02e1 无缝铜管尺寸B43-98(2004) 无缝红铜管尺寸B47-95a(2001) 电车架空线用铜线B48-00 电导线用矩形和正方形软裸铜线B49-98e2 电气用经回火的铜条材B61-02 蒸气或阀门青铜铸件的标准规范B62-02 混合青铜或少量金属铸件标准规范B63-90(2001) 金属导体电阻与接触材料的电阻率的测试方法B66-95(2003) 蒸汽机车易损零件用青铜铸件B68-02 光亮退火的无缝铜管B68M-99 光亮退火的无缝铜管(米制)B69-01a 轧制锌B70-90(2001) 电加热用金属材料的电阻随温度而变化的试验方法B75-02 无缝铜管B75M-99 无缝铜管规范（米制）B76-90(2001) 电加热用镍铬和镍铬铁合金的加速寿命的试验方法B77-81(2001) 电阻合金的热电功率的测试方法B78-90(2001) 电加热用铁铬铝合金的加速寿命的试验方法B80-01e1 镁合金砂型铸件B84-90(2001) 精密电阻器用合金丝的温度-电阻常数的测试方法B85-03 铝合金压模铸件B86-03 锌合金压模铸件B88-03 无缝铜水管B88M-03 无缝铜水管(米制)B90/B90M-98 镁合金薄板和中厚板B91-97(2004) 镁合金锻件规范B92/B92M-01 回熔用镁锭和镁棒B93/B93M-03 砂型铸件、永久型模铸件和压模铸件用镁合金锭B94-94(2000) 镁合金压铸件的技术规范B96/B96M-01 一般及压力容器用铜硅合金板、薄板、带材及轧制棒材B98/B98M-03 铜硅合金粗、细棒材和型材技术规范B99/B99M-01 一般用途的铜硅合金线B100-03a 桥梁和其它结构用锻制铜合金轴承和膨胀中厚板及薄板B101-02 建筑结构用包铅铜薄板和带材B102-00 铅和锡合金压模铸件B103/B103M-98e2 磷青铜板、薄板、带材和轧制棒材B105-00 电导线用冷拉制铜合金线B106-96(2002)e1 恒温金属挠性的试验方法B107/B107M-00 镁合金挤压制棒材、条材、型材、管材和线材B108-03a 铝合金永久型模铸件B111-98(2004) 铜和铜合金无缝冷凝器管和套圈坯料B111M-98e2 铜和铜合金无缝冷凝器管和套圈坯料(米制)B114-90(2001) 分流器与精密电阻器用薄板材料的温度－电阻常数的测试方法B115-00 电解阴极铜B116-95(2001) 工业运输用9号深槽铜及8号铜制电车架空线B117-03 盐雾试验设备的使用标准惯例B121/B121M-01 含铅黄铜中厚板、薄板、带材和轧制棒材B122/B122M-01 铜镍锡合金、铜镍锌合金(镍银)和铜镍合金板、薄板、带材及轧制棒材B124/B124M-00 铜和铜合金锻制条材、棒材和型材B127-98 镍铜合金板、薄板和带材B129-02 弹筒黄铜弹壳火帽壳B130-02 商用弹头壳青铜带材B131-02 铜合金弹头火帽壳B134/B134M-01 黄铜丝B135-02 无缝黄铜管B135M-00e1 无缝黄铜管(米制)B136-84(2003) 铝表面阳极镀层的着色阻力的测定方法B137-95(2000) 单位面积阳极铝镀层重量的测定方法B138/B138M-01 锰青铜条材、棒材和型材B139/B139M-01 磷青铜条材、棒材和型材B140/B140M-01 铜锌铅棒(铅红黄铜或硬青铜).棒材和成型材B148-97(2003) 铝青铜砂型铸件B150/B150M-03 铝青铜条材、棒材和型材B151/B151M-00 铜镍锌合金(镍银)及铜镍条和棒材B152/B152M-00 铜薄板、带材、中厚板及轧制棒材技术规范B153-91(2003)e1 铜和铜合金管的膨胀试验法(针试验)B154-01 铜和铜合金的硝酸亚汞试验法B159/B159M-01 磷青铜丝技术规范B160-99 镍条和镍棒技术规范B161-03 无缝镍管B162-99 镍板、薄板及带材B163-04 冷凝器及热交换器用无缝镍和镍合金管B164-03 镍铜合金条材、棒材和线材B165-93(2003)e1 无缝镍铜合金管规范B166-04 镍铬铁合金及镍铬钴钼合金条材、棒材及线材B167-01 无缝镍铬铁合金管B168-01 镍铬铁合金及镍铬钴钼合金板、薄板和带材B169/B169M-01 铝青铜中厚板、薄板、带材和轧制棒材B170-99(2004) 无氧电解铜精炼型材B171/B171M-04e1 压力容器、冷凝器及热交换器用铜合金中厚板和薄板B172-01a 电导线用成束绞绳铜导线B173-01a 导线用同芯多股绞绳铜导线B174-02 电导线用成束绞捻的铜导线B176-04 压铸件铜合金压模铸件B177-01 工程用钢表面镀铬B179-03 砂型铸件、永久型模铸件和压模铸件用铝合金锭及其熔化成形方式B183-79(2004)e1 电镀用低碳钢的制备B187/B187M-03 铜汇流棒、条和型材B188-02 汇流无缝铜管B193-02 导电材料电阻率的测试方法B194-01e1 铜铍合金中厚板、薄板、带材和轧制棒材B196/B196M-03 铜铍合金条及棒B197/B197M-01 铜铍合金线B199-99 镁合金永久型铸件B200-85(2004) 钢及铁合金表面铅和铅锡合金的电解沉积镀层B201-80(2000) 锌和镉的表面铬酸盐覆层试验B206/B206M-97(2002) 铜镍锌合金线(镍银)和铜镍合金线B208-04 砂型、永久型、离心型和连续铸造铸件用的铜基合金拉伸试验样件制备标准惯例B209-04 铝及铝合金薄板和中厚板的技术规范B209M-04 铝及铝合金薄板和中厚板的技术规范(米制)B210-02 拉制无缝铝和铝合金管B210M-02 拉制无缝铝和铝合金管(米制)B211-03 铝及铝合金棒材、条材和线材B211M-03 铝及铝合金棒材、条材和线材(米制)B212-99 高流动性金属粉末表观密度的测试方法B213-03 金属粉末流速的测试方法B214-99 粒状金属粉末的筛分试验方法B215-96 金属粉末的最后批量抽样方法B216-97(2003) 锻制品及合金用韧性火法精炼铜-精炼型材B221-02 铝及铝合金挤压制条、棒、线、管和型材B221M-02 铝和铝合金挤压制棒材、条材、线材、型材和管材(米制)B223-03 恒温器用复合金属的弹性模量测试法(悬臂梁法)B224-04 铜的分类方法B226-04 有心的圆形同心绞捻铜导线B227-04 冷拉包铜钢丝B228-04 同心绞捻的包铜钢导线B229-04 同心绞捻的铜与包铜钢丝复合导线B230/B230M-99(2004) 电气用1350-H19型铝线B231/B231M-04 同心绞捻铝1350导线B232/B232M-01e1 涂覆钢芯加强的同心绞捻铝导线(ACSR)B233-97(2003)e1 电气用1350铝拉制坯料B234-02 冷凝器及热交换器用拉制铝和铝合金无缝管B234M-02 冷凝器及热交换器用拉制铝和铝合金无缝管(米制)B236-00 电气用铝棒(汇流条)B236M-00 电气用铝棒(汇流条)(米制)B237-01 精炼锑标准规范B240-03 压模铸造用锌及锌铝合金锭B241/B241M-02 铝及铝合金无缝管和挤压制无缝管B242-99 电镀用高碳钢的制备B243-04a 粉末冶金的术语B244-97(2002) 用涡流仪器测量铝阳极镀层及其它非磁性基底金属绝缘体电镀层厚度的方法B246-00 电工用中硬拉和硬拉镀锡铜线材的标准规范B247-02a 铝和铝合金压模锻件、手工锻件和轧制环锻件B247M-02a 铝及铝合金压模锻件、手工锻件和轧制环形锻件(米制)B248-01e1 锻造铜及铜合金板、薄板、带及轧制棒材B248M-01e1 锻造铜及铜合金板、薄板、带及轧制棒材(米制)B249/B249M-02 铜和铜合金棒材、型材及锻件B250/B250M-01 锻造铜合金丝B251-02e1 锻制无缝铜及铜合金管B251M-97(2003) 锻制无缝铜及铜合金管(米制)B252-92(2004) 电镀层和转化涂层用锌合金压模铸件的制备B253-87(1999)e1 电镀用铝合金的制备B254-92(2004)e1 不锈钢上各类金属电镀的标准惯例B258-02 作电导体的实心圆导线的美国线规的标准公称直径和横截面积的技术规范B263-04 多股绞合导线横截面积的测试方法B265-03 钛及钛合金板、薄板及带材B267-90(2001) 绕线电阻器用电阻丝B271-96(2003) 铜基合金离心铸件的技术规范B272-02 有精制边缘的(轧制或拉制的)扁铜制品(扁丝或带)B275-04 某些锻造和锻造有色金属及合金统一牌号编制标准惯例B276-91(2000) 硬质合金表观孔隙率的测试方法B277-95(2001) 电接触材料硬度的测试方法B279-04 制造磁导线用方形和矩形软裸铜线及铝线硬度的测试方法B280-03 空气调节及制冷设备用无缝铜管B281-88(2001) 电镀层和转化镀层用铜和铜基合金的制备B283-04 铜及铜合金压模锻件(热压)B286-02 电气设备用铜连接线B294-92(2001) 硬质合金硬度的测试方法B296-03 铸造和锻造镁合金的回火标志B298-99e1 镀银的软的或退火的铜线B299-01 海绵钛B301/B301M-04 易切削铜条及铜棒B302-02 无螺纹铜管B306-02 铜排水管(DWV)B308/B308M-02 6061-T6型铝合金结构型材B311-93(2002)e1 孔隙度小于2％的粉末冶金材料密度的标准测试方法B312-96(2002) 金属粉末生压坯强度的测试方法B313/B313M-02e1 焊接铝和铝合金圆管B315-99 无缝铜合金管B316/B316M-02 铝及铝合金铆钉和冷镦头线材与棒材的技术规范B317-02 电气用挤压铝和铝合金棒、条、管及结构型材(汇流导体)B319-91(2004) 电镀用铅和铅合金的制备B320-60(2003)e1 电镀用铁铸件的制备B322-99 电镀前的金属清洗B324-01 电气用矩形和方形铝线B327-01e2 压铸模合金用母合金的技术规范B328-96(2003) 烧结金属结构零件和油浸轴承密度与互连多孔性的试验方法B329-98(2003)e1 用斯科特(Scott)容积计测定耐火金属粉末及化合物表观密度的试验方B330-02 用费歇尔亚筛分粒器测定耐火金属粉末及化合物的平均粒度的试验方法B331-95(2002) 单轴压缩中金属粉末的可压缩性试验方法B333-03 镍钼合金板、薄板和带材B335-03 镍钼合金条材技术规范B338-03 冷凝器和热交换器用无缝及焊接钛与钛合金管B339-00 锡锭B341/B341M-02 钢筋加强铝导线(ACSR/AZ)用包铝钢芯线B343-92a(2004)e1 镍电镀用镍的制备B344-01 拉制或轧制的镍铬和镍铬铁合金电热元件规范B345/B345M-02 铝和铝合金无缝管和气体和石油传输和分配管道系统的无缝挤压成型管的标准规范B348-03 钛及钛合金棒和坯锭B349/B349M-03 核设施用海绵锆和其它形状的纯金属锆B350/B350M-02 核设施用锌和锌合金铸锭B351/B351M-02 核设施用热轧和冷加工锆及锆合金棒、条和线材B352/B352M-02 核设施用锆及锆合金板、薄板和带材B353-02 核设备用锻制的无缝与焊接锆及锆合金管B354-98 不绝缘的金属电导体的相关术语B355-95(2003) 软的或退火的镀镍铜丝B359/B359M-02 具有整体散热叶片的冷凝器及热交换器用无缝铜和铜合金管B360-01 限流器用冷拉铜毛细管B361-02 工厂加工的锻制铝及铝合金焊接配件B362-91(2003) 恒温双金属制螺旋线圈的机械扭转率的试验方法B363-03a 无缝和焊接纯钛及钛合金焊接配件B364-96(2002) 钽及钽合金铸锭B365-98(2004) 钽及钽合金条和线材B366-04a 工厂加工的锻制镍和镍合金焊接配件B367-93(2004) 钛和钛合金铸件B368-97(2003)e1 加速铜氧化的醋酸盐喷雾试验(CASS试验)B369-96(2003) 铜镍合金铸件B370-03 建筑结构用铜薄板和带材B371/B371M-02 铜锌硅合金条规范B372-97(2003) 无缝铜及铜合金矩形波导管B373-00 电容器用铝箔B374-96(2003) 电镀的相关术语B379-04 增磷铜精炼型材B380-97(2002) 装饰电镀层的涂膏密室耐腐蚀试验方法B381-03 钛及钛合金锻件B386-03 钼和钼合金板、薄板、带材和箔B387-90(2001) 钼及钼合金棒、条和线材B388-00 恒温双金属薄板和带材B389-81(2004) 恒温双金属螺旋形线圈的热偏转率的测试方法B390-92(2000) 钨硬质合金表观晶粒度及其分布的评定B391-03 铌和铌合金铸锭B392-03 铌和铌合金棒、条及线材B393-03 铌和铌合金带材、薄板及中厚板B394-03 铌和铌合金无缝及焊接管B395/B395M-02 热交换器及冷凝器用U型无缝铜和铜合金管B398/B398M-02 电气用6201-T81型铝合金线B399/B399M-99 同心绞捻的6201-T81型铝合金导线B400-04 紧密的圆形同芯绞捻1350型铝导线B401-99 紧密的圆形钢芯加强同心绞捻铝导线(ACSR/COMP)B403-02 镁合金熔模铸件规范B404/B404M-02 带有整体散热片的冷凝器与热交换器用铝和铝合金无缝管B406-96(2000) 硬质合金横向断裂强度的测试方法B407-01 镍铁铬合金无缝管B408-01 镍铁铬合金条和棒B409-01 镍铁铬合金板、薄板和带材B411/B411M-01 铜镍硅合金条及棒B413-97a（2003）精炼银规范B415-98(2002) 冷拉制包铝钢丝B416-98(2002) 同心绞捻包铝钢导线B417-00 流动性不好的金属粉末的表观密度测试方法B418-01 铸造和锻造镀锌阳极B422-04 铜铝硅钴合金、铜镍硅镁合金及铜镍铝镁合金薄板和带材B423-03 镍铁铬钼铜合金无缝管B424-98a 镍铁铬钼铜合金板、薄板及带材B425-99 镍铁铬钼铜合金条及棒B427-02 齿轮青铜合金铸件规范B428-93(2004) 矩形和正方形铜和铜合金管扭转角的测试方法B429-02 挤压制铝合金结构管B430-97(2001) 用比浊法测定耐火金属粉末粒度分布的试验方法B432-04 包铜及包铜合金的钢板B434-00 镍钼铬铁合金板、薄板和带材B435-03 统一编制牌号为NO6002、NO6230、N12160和R30556的板材和带材及牌号为N06002、N06230和R30556的带材B438/B438M-04 青铜烧结轴承(油浸的)B439-00e1 铁基烧结轴承(油浸的)B440-00 镉B441-04 铜钴铍及铜镍铍条和棒B443-00e1 镍铬钼钶合金板、薄板和带材B444-03 镍铬钼钶合金管B446-03 镍铬钼钶合金条和棒B447-02 焊接铜管B449-93(2004) 铝的铬酸盐处理B452-02 电子设备用包铜钢导线B453/B453M-01 铜锌铅合金(含铅黄铜)条材B455-01 铜锌铅合金（含铅黄铜）挤压型材技术规范B456-03 铜+镍+铬及镍+铬的电解沉积镀层B457-67(2003) 铝表面阳极镀层阻抗的测量方法B462-04 腐蚀高温作业用锻制或轧制的UNS NO8020、UNS NO8024、UNS NO8026和UNS NO8367型合金管法兰、锻制配件、阀门及零件B463-04 UNS NO8020、UNS NO8024和UNS NO8026合金板、薄板及带材B464-04 焊接的UNS NO8020、NO8024和NO8026合金管B465-04 铜铁合金板、薄板、带材和轧制棒材B466/B466M-03 无缝铜镍合金管B467-88(2003) 焊接铜镍管B468-04 焊接的UNS NO8020、NO8024和NO8026合金管B470-02 电子设备布线用连接铜导线B472-04 再锻用UNS NO8020、UNS NO8026、UNS NO8024、UNS NO8926和UNS NO8367镍合金坯段和棒材B473-96(2002)e1 UNS NO8020、UNS NO8026及UNS NO8024镍合金棒和线B474-03 电熔焊的UNS NO8020、UNS NO8026和UNS NO8024镍合金管B475-96(2002)e1 UNS NO8020、UNS NO8026及UNS NO8024镍合金圆编织线B476-01 锻制贵金属电接触材料B477-97(2002) 金银镍电接触合金B478-85(2003) 恒温双金属横向弯曲率的测试方法B479-00 挠性栅栏用退火铝及铝合金箔B480-88(2001) 电镀用镁和镁合金的制备B481-68(2003)e1 电镀用钛和钛合金的制备B482-85(2003) 电镀用钨和钨合金的制备B483/B483M-03 普通拉制铝及铝合金管B487-85(2002) 用横断面显微观察法测定金属及氧化物涂层厚度的方法B488-01 工程用电解沉积镀金层B489-85(2003) 金属表面电解沉积和自动催化沉积金属镀层延展性的弯曲试验B490-92(2003) 用测微计弯曲试验法测定电解沉积物的延展性B491/B491M-00 普通挤压铝和铝合金圆管B493-01(2003) 锆及锆合金锻件B494/B494M-03 原生锆B495-01 锆及锆合金铸锭B496-04 紧密的圆形同心绞捻铜导线B497-00 闭合电弧接点上电压降的测量B498/B498M-98(2002) 钢芯加强的铝导线用镀锌钢芯线(ACSR)B499-96(2002) 用磁性法测量磁性基底金属的非磁性镀层厚度的方法B500/B500M-98(2002) 钢芯加强的铝导线用镀金属层的钢芯线(ACSR)B501-99 电气用镀银包铜钢丝B502-02 包铝钢芯加强的铝导线用包铝钢芯线B504-90(2002) 用库仑法测量金属镀层厚度的试验方法B505/B505M-02 连续浇铸的铜基合金铸件B507-86(2003) 机件在支架上电镀的设计B508-97(2003) 柔性金属软管用的铜合金带材规范B511-01 镍铁铬硅合金棒材和型材规范B512-04 镍铬硅合金（UNS N08330）坯锭和棒材规范B514-95(2002)e1 焊接镍铁铬合金管规范B515-95(2002) 统一编制牌号为UNS N08120、NO8800、NO8810和N0811焊接合金管规范B516-03 焊接镍铬铁合金(UNS N06600, UNS N06603, UNS N06025, 和UNS N06045）管规范B517-03 焊接的镍铬铁合金(UNS N06600, UNS N06603, UNS N06025, and UNS N06045)管规范B520-93(2002)e1 电子方面用镀锡包铜钢丝的规范B521-98（2004）钽和钽合金无缝和焊接管规范B522-01 金银铂电接触合金规范B523/B523M-02 无缝和焊接的锆及锆合金管材技术规范B524/B524M-99 铝合金芯增强的同心绞捻铝导线(ACAR,1380/6201)B527-93(2000)e1 用塔普-帕克(Tap-Pak)容量计测定耐火金属及化合物粉末的塔普(Tap)密度的试验方法B528-99 烧结金属粉末样品的横向断裂强度的试验方法B530-02 用磁性法测量磁性和非磁性基底上的电解沉积镀镍层厚度的方法B532-85(2002) 电镀塑料表面外观B533-85(2004) 测量塑料表面金属镀层抗撕裂强度的标准试验方法B534-01 铜钴铍合金及铜镍铍合金板、薄板、带材和轧制棒材B535-04 镍铁铬硅合金无缝管B536-02 镍铁铬硅合金板、薄板及带材B537-70(2002) 评定电镀板在大气暴露情况下耐腐蚀性能的标准惯例B539-02e1 电气连接的接触电阻的测量方法(静态接触)B540-97(2002) 电接触用钯合金B541-01 电接触用金合金B542-04 电接点及其应用的相关术语B543-96(2003) 焊接的铜及铜合金热交换管B545-97(2004)e1 电解沉积锡镀层B546-04 电熔焊接镍铬钴钼合金（N06617），镍铁铬硅合金（N08330和N08332）镍铬铁合金（N06025）和镍铬铁硅合金（N06045）管的技术规范B547/B547M-02 铝及铝合金成形并用电弧焊焊接的圆管技术规范B548-03 压力容器用铝合金板的超声波检验B549-00 包铝钢芯加强的同芯绞捻铝导线(ACSR/AW)B550/B550M-02 锆及锆合金棒材和丝材技术规范B551/B551M-04 锆及锆合金带材、薄板材和厚板材技术规范B552-98（2004）水淡化厂用无缝和焊接铜/镍管。

中外部分有色金属及其牌号近似对照
表2 变形铝及铝合金牌号近似对照
表4 原生镁锭牌号近似对照
表5 变形镁及镁合金牌号近似对照
续表5
表8 加工铜牌号近似对照
表10 加工青铜牌号近似对照
表12 铸造铜合金牌号近似对照
表13 锌锭牌号近似对照`
表14 加工锌及锌合金牌号近似对照
表15 压铸锌合金牌号近似对照
表16 压铸锌合金牌号近似对照
表17 锡及锡合金牌号近似对照
表18 铅及铅合金牌号近似对照
表22 铸造钛及钛合金牌号近似对照
表23 钨及其产品名称和牌号
表24 钨板(丝)牌号近似对照
表25 钼及其产品名称和牌号
表26 钼产品名称及牌号近似对照
（注：表27~表35为贵金属及其合金）表27 金锭及纯金(丝)牌号近对照
表29 银及纯银牌号近似对照
表30 银合金牌号近似对照
表31 银粉牌号
表32 海绵铂牌号近似对照
表34 铂合金牌号近似对照
表35 铱粉牌号近似对照
表36 铸造轴承合金牌号近似对照。

ASTM标准中文版B系列ASTM B100-1992 桥梁和其他结构用途加工铜合金支承及伸缩厚板和薄板50ASTM B101-1983(1988) 镀铅铜薄板50ASTM B103/B103M-1991 磷青铜中厚板、薄板、带及轧制条材50ASTM B105-1988 电导体用拉制硬态铜合金线50ASTM B107/B107M-1992 镁合金挤压异形棒、圆棒、型材、管材和线材70ASTM B108-1992a 永久型铝合金铸件60ASTM B111M-1992 铜及铜合金无缝冷凝管和管口密套件(米制) 60ASTM B1149-1987b 红外热成象无损检测术语定义50ASTM B115-1991 电解阴极铜50ASTM B116-1964(1990) 工业运输用9字形带深槽铜电车架空线和8字形铜电车架空线60 ASTM B1-1990 拉制硬态铜线50ASTM B121/B121M-1991 加铅黄铜板、薄板、带及轧制棒50ASTM B122-1990 铜镍锡合金、铜镍锌合金(镍银)和铜镍合金厚板、薄板、带材和轧制条材50ASTM B124M-1990 铜及铜合金锻制棒、条和型材(米制) 50ASTM B127-1993 镍－铜合金(UNS N04400)中厚板、薄板和带材60ASTM B129-1988 黄铜弹壳深冲件50ASTM B130-1986 深冲子弹壳用工业青铜带材50ASTM B131-1988 铜合金弹壳深冲件50ASTM B133M-1992 铜棒材、条材和型材50ASTM B134-1988 黄铜线50ASTM B135M-1991 无缝黄铜管(米制) 50ASTM B137-1945(1979) 铝阳极氧化镀层重量测量方法50ASTM B138M-1984 锰青铜棒、条和型材(米制) 50ASTM B139-1990 磷青铜棒材、条材和型材50ASTM B140M-1985 铜锌铅(含铅红铜和小五金青铜)棒材、条材和型材(米制) 50ASTM B148-1992 铝青铜砂型铸件50ASTM B150M-1991 铝青铜棒材、条材和型材50ASTM B151M-1989 铜镍锌合金(镍银)和铜镍合金棒材与条材(米制) 50ASTM B152M-1992 铜薄板、带、中厚板和轧制条材(米制) 50ASTM B159M-1986a 磷青铜线(米制) 50ASTM B16/B16M-2005 螺纹切削机用易车削黄铜棒、条和型材标准规范60ASTM B160-1993 镍圆棒和异形棒50ASTM B161-1993 镍无缝管50ASTM B162-1993 镍中厚板、薄板和带材50ASTM B163-1993 冷凝器和热交换器用镍和镍合金无缝非标准尺寸管材50ASTM B164-1993 镍铜合金圆棒、异形棒和线材50ASTM B165-1993 镍铜合金(UNS N04400)无缝管50ASTM B166-1993 镍－铬－铁合金(UNS N06600、N06601和N06690)以及镍－铬－钴－钼合金(UNS N06617)圆棒、异形棒和线材50ASTM B167-1993 镍－铬－铁合金(UNS N06600、N06601和N06690)无缝管50ASTM B168-1993 镍－铬－铁合金(UNS N06600、N06601和N06690)及镍－铬－钴－钼合金(UNS N06617)中厚板、薄板和带材50ASTM B169M-1988 铝青铜中厚板、薄板、带材和轧制条材(米制) 50ASTM B170-1993 无氧电解铜－精炼型锭60ASTM B171M-1991a 压力容器、冷凝器和热交换器用的铜合金厚板和薄板(米制) 50 ASTM B172-1990 电导体用由分股绞合构成的绳"绞合铜导线" 50ASTM B173-1990 电导体用由分股同心绞合线构成的绳绞合铜导线" 50ASTM B174-1990 电导体用多股绞合铜导线50ASTM B176-1990 铜合金压铸件50ASTM B179-1992a 砂型铸件、永久型铸件及压铸件用的铝合金锭50ASTM B187-1992 母线用铜条材、棒材和型材50ASTM B188-1988 母线用无缝钢管50ASTM B189-1990 电气用镀铅和镀铅合金软态铜线50ASTM B19-1986 弹壳用黄铜薄板、带、厚板、条和圆坯50ASTM B194-1992 铜铍合金中厚板、薄板、带材和轧制条材60ASTM B196M-1990 铜铍合金棒材和条材(米制) 50ASTM B197-1991 铜铍合金线50ASTM B199-1987 镁合金永久型铸件50ASTM B206M-1987 铜镍锌合金(镍银)线和铜镍合金线(米制) 50ASTM B209-2004 铝和铝合金薄板和中厚板标准规范50ASTM B210M-1992a 铝和铝合金拉制无缝管(米制) 60ASTM B211M-1992a 铝和铝合金异形棒、圆棒和线材(米制) 50ASTM B216-1989 生产加工产品用的火法精炼韧铜及铜合金－精炼型锭50ASTM B2-1988 拉制半硬态铜线50ASTM B21M-1990a 海军黄铜棒材、条材和型材(米制) 50ASTM B22-1990a 桥梁和转台有青铜铸件50ASTM B221M-1992a 铝和铝合金挤制圆棒、异形棒、线材、型材和管材(米制) 60ASTM B224-1992 铜的标准分类50ASTM B226-1990 有芯圆环形同心绞合铜导线50ASTM B227-1988 拉制硬态包铜钢线50ASTM B228-1988 同心绞合包铜钢导线50ASTM B229-1990 铜和包铜钢复合同心绞线50ASTM B230M-1989 电气用1350-H19铝线(米制) 50ASTM B231-1990 同心绞合1350铝导线50ASTM B23-1983(1988) 巴比轴承合金50ASTM B232M-1992 同心绞合镀层钢芯铝导线(ACSR)(米制) 60ASTM B233-1992 电气用1350铝拉丝坯盘条50ASTM B234M-1992 冷凝器与热交换器用铝合金拉制无缝管(米制) 50ASTM B236M-1992a 电气用铝棒(母线) 50ASTM B241/B241M-1992a 铝和铝合金无缝管及无缝挤压管60ASTM B244-1979 用涡流法检测铝材的阳极氧化涂层厚度及在其它非磁性基体金属绝缘涂层厚度的方法50ASTM B247M-1992a 铝和铝合金模锻件、手工锻件和轧制环形锻件(米制) 60ASTM B248M-1991a 铜和铜合金加工厚板、薄板、带材和轧制条材的一般要求(米制) 70 ASTM B249-1991 铜和铜合金加工棒材、条材和型材的一般要求70ASTM B250M-1988 加工铜合金线材的一般要求(米制) 50ASTM B251M-1988 加工铜和铜合金无缝管的一般要求(米制) 50ASTM B26/B26M-1992a 铝合金砂型铸件60ASTM B265-1993 钛和钛合金带材、薄板和中厚板材50ASTM B267-1990 绕线电阻器用丝材50ASTM B271-1991 铜基合金离心浇注铸件50ASTM B272-1983 带轧制或拉制边的扁平铜产品(扁线和带材) 50ASTM B280-1992 空调及制冷领域用无缝铜管50ASTM B283-1991 铜及铜合金热压模锻件50ASTM B286-1989 电子设备连接线用铜导线50ASTM B291-1991 铜锌锰合金(锰黄铜)薄板和带材50ASTM B29-1992 精炼铅50ASTM B298-1987 镀银软态或退火铜线50ASTM B299-1992 海绵钛50ASTM B30-1992 铜基合金锭70ASTM B301M-1990 易切削黄铜棒材和条材(米制) 50ASTM B302-1988 无螺纹铜管50ASTM B306-1988 铜排水管(DWV) 50ASTM B308/B308M-1992a 6061－T6铝合金标准结构型材50ASTM B313/B313M-1992a 铝及铝合金焊接圆管50ASTM B314-1990 通讯电缆用1350铝线50ASTM B315-1991 无缝铜合金管和标准规格管60ASTM B316-1992a 铝及铝合金铆钉和冷镦用线材与圆棒(米制) 50ASTM B317-1992a 导电(母线)用铝合金挤制条材、棒材、管材和结构型材50ASTM B3-1990 软态或退火铜线50ASTM B32-1993 钎焊料金属50ASTM B324-1988 电气用矩形和方形铝线50ASTM B327-1992 压铸锌合金用铝中间合金50ASTM B33-1991 电气用软态或退火镀锡铜线50ASTM B333-1992 镍－钼合金中厚板、薄板和带材50ASTM B335-1989 镍－钼合金圆棒50ASTM B338-1991a 冷凝器用和热交换器用钛和钛合金无缝与焊接管50ASTM B339-1993 锡锭50ASTM B341M-1993 钢芯铝绞线(ACSR/AZ)用镀铝钢芯线(米制) 50ASTM B344-1992 电加热元件用拉制或轧制镍铬和镍铬铁合金丝50ASTM B345M-1992a 煤气和石油输送与管网分配系统用铝和铝合金无缝管和无缝挤压管(米制) 50ASTM B348-1993 钛和钛合金条材和方坯50ASTM B350-1993 核工来用锆和锆合金锭50ASTM B351-1992 核工业用热轧和冷加工锆和锆合金棒材和线材50ASTM B352-1992 核工业用锆和锆合金薄板、带材和中厚板材50ASTM B353-1991 核设施用形变锆和锆合金无缝管和焊接管60ASTM B355-1990 镀镍软态或退火铜线50ASTM B359M-1992 冷凝器及热交换器用铜与铜合金无缝翅片管(米制) 50ASTM B36/B36M-1991a 黄铜厚板、薄板、带材和轧制条材50ASTM B360-1988 限流用拉制硬态铜毛细管50ASTM B361-1992 工厂制造的形变铝和铝合金焊接配件50ASTM B364-1992 钽和钽合金锭50ASTM B365-1992 钽和钽合金棒材和线材50ASTM B369-1990b 铜镍合金铸件50ASTM B370-1988 建筑结构用铜薄板和带材50ASTM B371-1984a 铜锌硅合金棒材50ASTM B37-1992 钢铁生产用铝50ASTM B372-1992 铜和铜合金无缝矩形波导管50ASTM B373-1992a 电容器用铝箔50ASTM B379-1980(1987) 磷铜－精炼型锭50ASTM B386-1991(1992) 钼和钼合金中厚板、薄板、带材和箔材50ASTM B387-1990 钼和钼合金棒材和线材50ASTM B388-1987 双金属片用薄板和带材50ASTM B391-1989 铌和铌合金锭50ASTM B39-1979(1993) 镍50ASTM B392-1989 铌和铌合金扁材、棒材和线材50ASTM B393-1989 铌和铌合金带材、薄板和中厚板50ASTM B394-1989 铌和铌合金无缝和焊接管50ASTM B395M-1992 热交换器和冷凝器用铜和铜合金无缝U形弯管(米制) 60ASTM B396-1987 电气用5005-H19铝合金线50ASTM B397-1985(1992) 5005-H19铝合金同心绞合导线50ASTM B398M-1992 电气用6201-T81铝合金线(米制) 50ASTM B399M-1992 6201-T81铝合金同心绞合导线［米制］50ASTM B400-1992 1350铝紧密型同心绞合圆导线50ASTM B401-1992 紧密型钢芯同心绞合圆形铝导线(ACSR/COMP) 50ASTM B403-1990 镁合金熔模铸件50ASTM B404M-1992a 冷凝器和热交换器用铝或铝合金无缝翅片管(米制) 50ASTM B407-1993 镍铁铬合金无缝管50ASTM B408-1987 镍铁铬合金圆棒和异形棒50ASTM B409-1993 镍铁铬合金中厚板、薄板和带材50ASTM B411-1985 铜镍硅合金棒材和条材50ASTM B412-1987 铜镍硅合金线材50ASTM B413-1989 精炼银50ASTM B415-1992 冷拉包钢铝包丝50ASTM B416-1988 同心绞合包铝钢导线50ASTM B42-1992 标准规格的无缝铜管50ASTM B422-1991 铜铝硅钴合金、铜镍硅镁合金和铜镍铝镁合金薄板与带材50 ASTM B423-1990 镍铁铬钼铜合金(UNS N08825和N08221)无缝管50ASTM B424-1993 镍铁铬钼铜合金(UNS N08825和UNS N08221)中厚板、薄板和带材50 ASTM B425-1993 镍铁铬钼铜合金(UNS N08825和UNS N08221)圆棒和异形棒50 ASTM B427-1990 青铜合金齿轮铸件50ASTM B429-1992a 铝合金挤制结构管50ASTM B43-1991 标准规格的红色黄铜无缝管50ASTM B432-1991 包覆铜和铜合金中厚钢板50ASTM B434-1989 镍钼铬铁合金(UNS N10003)中厚板、薄板和带材50ASTM B435-1993 合金UNS N06002、UNS N06230和UNS R30556中厚板、薄板和带材50 ASTM B440-1983(1988) 镉50ASTM B441-1985 铜钴铍合金(UNS号C17500)和铜镍铍合金(UNS号C17510)棒材和条材50 ASTM B442-1980(1987) 化学法精炼的紫铜型锭50ASTM B443-1993 镍铬钼铌合金(UNS N06625)中厚板、薄板及带材50ASTM B444-1990 镍铬钼铌合金(UNS N06625)无缝管50ASTM B445-1987 镍铬铁铌钼钨合金(UNS N06102)无缝管50ASTM B446-1993 镍铬钼铌合金(UNS N06625)圆棒和异形棒50ASTM B447-1992a 焊接铜管50ASTM B451-1981(1986) 印刷电路和载波带用铜箔、带和薄板50ASTM B452-1988 电子工业用包铜钢丝50ASTM B453M-1988 铜锌铅合金(含铅黄铜)棒材(米制) 50ASTM B455-1991 铜锌铅合金(含铅黄铜)挤压型材50ASTM B462-2004 高温耐腐蚀用锻制或轧制的UNS NO6030、UNS NO6022、UNS NO6200、UNS NO8020、UNS NO8024、UNS NO8026、UNS NO8367、UNS NO10276、UNS N10665、UNS N10675和UNS R20033合金管法兰、锻制管件、阀门和零件标准规范60ASTM B463-1993 合金UNS N08020、UNS N08026和UNS N08024中厚板、薄板和带材50 ASTM B464-1993 合金UNS N08020、UNS N08024和UNS N08026标准尺寸焊接管(一般用途) 50ASTM B465-1990 铜铁合金中厚板、薄板、带和轧制棒50ASTM B466M-1986 铜镍合金无缝管(米制) 50ASTM B467-1988 铜镍合金焊接管50ASTM B468-1993 合金UNS N08020、N08024和N08026非标准尺寸焊接管(锅炉、热交换器和冷凝器用) 50ASTM B469-1988 承压用铜合金无缝管50ASTM B470-1990 电子设备连接线用焊合铜导线50ASTM B471-1993 UNS N08020、UNS N08026和UNS N08024镍合金圆形弹簧线材50 ASTM B47-1964(1990) 铜电车架空线50ASTM B472-1991a 供再锻造用的UNS N08020、UNS N08026、UNS N08024、UNS N08926和UNS N08367镍合金坯料及条材50ASTM B473-1991 UNS N08020、UNS N08026和UNS N08024镍合金条材及线材50ASTM B474-1987 镍合金UNS N08020、N08026和N08024电熔焊管50ASTM B475-1991 UNS N08020、UNS N08026和UNS N08024镍合金圆形编织用丝50 ASTM B476-1990 贵金属电触头材料一般要求50ASTM B477-1992 金银镍电触头合金50ASTM B479-1992a 软质包装隔离用退火铝和铝合金箔50ASTM B48-1992 电导体用矩形和方形软态裸铜线50ASTM B483M-92a 一般用途的铝和铝合金拉制管(米制) 50ASTM B488-1986 工程用金电镀层50ASTM B491/B491M-1992a 一般用途的铝和铝合金挤制圆管(米制) 50ASTM B49-1992 电气用再拉铜盘条50ASTM B495-1990 锆和锆合金锭50ASTM B496-1992 紧密型同心绞合圆形铜导线50ASTM B498M-1993 钢芯铝绞线(ACSR)用镀锌钢芯线(米制) 50ASTM B500-1992 钢芯铝绞线(ACSR)用镀锌、镀锌－5％铝－混合稀土合金和镀铝捻股钢芯50ASTM B501-1988 电子工业用镀银包铜钢丝50ASTM B502-1993 包铝钢芯铝导线用包铝钢芯线50ASTM B505-1991b 铜基合金连续铸件60ASTM B506-1981(1986) 建筑结构用包铜不锈钢薄板和带材50ASTM B508-1986 挠性金属软管用铜合金带材50ASTM B509-1977(1983) 对核用镍合金板的补充要求50ASTM B510-1977(1983) 核用镍合金棒和条的补充要求规范50ASTM B511-1993 镍铁铬硅合金条材及型材50ASTM B512-1987 镍铬硅合金(UNS N08830)坯料和条材50ASTM B513-1979(1985) 核用镍合金无缝管附加要求技术条件50ASTM B514-1985 镍铁铬合金焊管50ASTM B515-1990 合金UNS N08800和UNS N08810焊接管材50ASTM B516-1993 镍铬铁合金(UNS N06600)非标准尺寸焊接管材50ASTM B517-1993 镍铬铁合金(UNS N06600)标准尺寸焊管50ASTM B518-1987 镍铬铁铌钼钨合金(UNS N06102)圆棒及异形棒50ASTM B519-1992 镍铬铁铌钼钨合金(UNS N06102)中厚板、薄板和带材50ASTM B5-1989 电解精炼韧铜型锭50ASTM B520-1970(1988) 电子用镀锡包铜钢丝50ASTM B521-1992 钽和钽合金无缝与焊接管50ASTM B522-1990 金银铂电触头合金50ASTM B523-1992 锆和锆合金无缝与焊接管50ASTM B524M-1992 铝合金芯线同心绞合铝导线(ACAR，1350/6201)［米制］50ASTM B531-1990 电气用5005铝合金拉拔坯盘条50ASTM B534-1991 铜钴铍合金和铜镍铍合金中厚板、薄板、带材和轧制条材50ASTM B535-1987 镍铁铬硅合金(UNS N08330和UNS N08332)无缝管50ASTM B536-1993 镍铁铬硅合金(UNS N08330和UNS N08332)中厚板、薄板和带材50 ASTM B540-1991 钯电触头合金50ASTM B541-1989 金电触头合金50ASTM B543M-1991 热交换器用铜和铜合金焊接管(米制) 50ASTM B546-1987 镍铁铬硅合金(UNS N08330和UNS N08332)电熔焊管50ASTM B547-1992a 成形后电弧焊接的铝和铝合金圆管50ASTM B548-1982 压力容器用铝合金板超声检测方法和规范50ASTM B549-1988 包铝钢芯同心绞合铝导线50ASTM B550-1992 锆和锆合金条材与线丝材50ASTM B551-1992 锆和锆合金带材、薄板和中厚板50ASTM B552-1986 海水淡化工厂无缝和焊接铜镍管50ASTM B559-1988 电子工业用镀镍包铜钢丝50ASTM B561-1986 精炼铂50ASTM B562-1986 精炼金50ASTM B563-1989 钯银铜电触头合金50ASTM B564-2006 镍合金锻件标准规范35ASTM B566-1988(1993) 包铜铝线50ASTM B567-1987 β背散射法测定涂层厚度方法50ASTM B569-1986 热交换器管道用UNS号C26000黄铜窄薄带材50ASTM B570-1989 铜铍合金锻件和挤压件50ASTM B572-1987a 合金UNS N06002、UNS N06230和UNS R30556圆棒50ASTM B573-1989 镍钼铬铁合金(UNS N10003)圆棒50ASTM B574-1991 低碳镍钼铬和低碳镍铬钼合金圆棒50ASTM B575-1992 低碳镍钼铬和低碳镍铬钼合金中厚板、薄板和带材50ASTM B581-1993 镍铬铁钼铜合金圆棒50ASTM B582-1992 镍铬铁钼铜合金中厚板、薄板和带材50ASTM B584-1991a 一般用途的铜合金砂型铸件50ASTM B587-1988 焊接黄铜管60ASTM B589-1982(1987) 精炼钯50ASTM B591-1991 铜锌锡合金中厚板、薄板、带材和轧制条材50ASTM B592-1986 铜锌铝钴(或镍)合金中厚板、薄板、带材和轧制条材50ASTM B594-1982 航空用铝合金制品超声检测方法50ASTM B596-1989 金铜合金电触头材料50ASTM B599-1992 稳定化镍铁铬钼铌合金(UNS N08700)中厚板、薄板和带材50ASTM B601-1992 加工和铸造铜及铜合金状态代号施行方法50ASTM B603-1990 拉拔或轧制的电加热元件用铁铬铝合金50ASTM B606-1993 钢芯铝和铝合金导线用高强度镀锌钢芯线50ASTM B608-1988 铜合金焊接管60ASTM B609M-1991 电气用退火状态和中间状态的1350铝圆线(米制) 50ASTM B61-1990 蒸汽红黄铜或阀青铜铸件50ASTM B616-1991 精炼铑50ASTM B617-1983(1988) 电触头银币合金50ASTM B618-1992a 铝合金熔模铸件50ASTM B619-1992 镍和镍钴合金标准尺寸焊管50ASTM B6-1987(1992) 锌金属50ASTM B620-1993 镍铁铬钼合金(UNS N08320)中厚板、薄板和带材50ASTM B621-1989 镍铁铬钼合金(UNS N08320)圆棒50ASTM B62-2002 青铜或高铜黄铜铸件标准规范60ASTM B622-1993 镍和镍钴合金无缝管50ASTM B623-1993 火法精炼高电导率韧铜－精炼型锭50ASTM B624-1992 电子工业用高强度和高电导率铜合金线50ASTM B625-1993 合金UNS N08904、UNS N08925、UNS N08031、UNS N08932和UNS N08926中厚板、薄板和带材50ASTM B626-1993 镍和镍钴合金非标准尺寸焊接管材50ASTM B628-1983(1988) 银铜共晶电触头合金50ASTM B631-1988 银钨电触头材料50ASTM B632M-1992a 轧制铝合金踏板(米制) 50ASTM B638-1992 太阳热吸收器用铜及铜合金镶板50ASTM B639-1992 高温用弥散硬化含钴合金(UNS R30155和UNS R30816)条材、圆棒、锻件和锻坯50ASTM B640-1992 空调和制冷设备用铜和铜合金焊管60ASTM B641-1992 无缝和焊接铜配管(D类) 50ASTM B642-1988 铜合金UNS号C21000焊接水管50ASTM B643-1990 铜铍合金无缝管50ASTM B644-1988 铜合金添加剂50ASTM B649-1993 Ni-Fe-Cr-Mo-Cu低碳合金(UNS N08904)和Ni-Fe-Cr-Mo-Cu－N低碳合金(UNS N08925、UNS N08031和UNS N08926)异形棒及线材50ASTM B652-1992 铌铪合金锭50ASTM B654-1992 铌铪合金箔材、薄板、带材和中厚板50ASTM B655-1992 铌铪合金条材、棒材和线材50ASTM B658-1992 锆和锆合金无缝与焊接管50ASTM B66-1990a 机车磨损件用青铜铸件毛坯50ASTM B662-1989 银钼电触头材料50ASTM B663-1989 银－碳化钨电触头材料50ASTM B664-1990 80％银－20％石墨滑动接触材料50ASTM B668-1989 合金UNS N08028无缝非标准尺寸管材50ASTM B669-1989 铸造和压铸件用锌－铝合金型锭50ASTM B670-1993 高温用沉淀硬化镍合金(UNS N07718)中厚板、薄板和带材50ASTM B671-1981(1987) 精炼铱50ASTM B67-1990 车辆及煤水车用镶轴瓦滑动轴承50ASTM B672-1985 镍铁铬钼铌稳定化合金(UNS N08700)异形棒和线材50ASTM B673-1991 合金UNS N08904、N08925和UNS N08926标准尺寸焊管50ASTM B674-1991 合金UNS N08904、UNS N08925和UNS N08926非标准尺寸焊接管材50 ASTM B675-1990a 合金UNS N08366和UNS N08367标准尺寸焊管50ASTM B676-1990 合金UNS N08366和UNS N08367非标准尺寸焊接管材50ASTM B677-1991 合金UNS N08904、UNS N08925和UNS N08926无缝管50ASTM B679-1991 工程用钯电镀层50ASTM B682-1981(1991) 电导线的标准米制规格50ASTM B683-1990 纯钯电触头材料50ASTM B684-1992 铂铱电触头材料50ASTM B685-1990 钯铜电触头材料50ASTM B686-1992a 高强度铝合金铸件50ASTM B687-1988 黄铜、铜和镀铬管焊纹接头50ASTM B688-1993 铬镍钼铁(UNS N08366和UNS N08367)中厚板、薄板和带材50ASTM B68M-1992 光亮退火无缝铜管(米制) 50ASTM B690-1993 铁镍铬钼合金(UNS N08366和UNS N08367)无缝管50ASTM B691-1993 铁镍铬钼合金(UNS N08366和UNS N08367)棒材、条材和线材50 ASTM B69-1992 轧制锌材50ASTM B692-1990 75％银－25％石墨滑动接触材料50ASTM B693-1991 银镍电触头材料50ASTM B694-1986 电缆屏蔽用铜、铜合金和包铜不锈钢薄板和带材50ASTM B698-1991 铜及铜合金无缝与焊接卫生管道与管材50ASTM B701-1991 钢芯同心绞合自减振铝导线(ACSR/SD) 50ASTM B702-1988 铜钨电触头材料50ASTM B704-1991 合金UNS N06625和UNS N08825非标准尺寸焊管50ASTM B705-1982(1990) 镍合金(UNS N06625和N08825)标准尺寸焊管50ASTM B706-1988 铜合金(UNS号C69100)无缝管50ASTM B707M-1988 无缝铜水管(特殊用途)(米制) 50ASTM B708-1992 钽和钽合金中厚板、薄板和带材50ASTM B709-1993 铁镍铬钼合金(UNS N08028)中厚板、薄板和带材50ASTM B710-1987 镍铁铬硅合金标准尺寸焊管50ASTM B711-1988 钢芯同心绞合铝合金导线(AACSR)(6201) 50ASTM B716M-1992 焊接铜水管(米制) 50ASTM B717-1984(1991) 精炼钌50ASTM B718-1992 镍铬钼钴钨铁硅合金(UNS N06333)中厚板、薄板和带材50ASTM B719-1983(1990) 镍铬钼钴钨铁硅合金(UNS N06333)棒材50ASTM B720-1993 UNS N08310合金非标准尺寸无缝管50ASTM B722-1983a 镍铬钼钴钨铁硅合金(UNS N06333)无缝管50ASTM B723-1983(1990) 镍铬钼钴钨铁硅合金(UNS N06333)标准尺寸焊管50ASTM B725-1993 镍(UNS N02200/UNS N02201)镍铜合金(UNS N04400)标准尺寸焊管50 ASTM B726-1991 镍铬钼钴钨铁硅合金(UNS N06333)非标准尺寸焊管50ASTM B729-1991 镍合金UNS N08020、N08026和N08024无缝管50ASTM B730-1993 镍(UNS N02200/UNS N02201)镍铜合金(UNS N04400)非标准尺寸焊管50 ASTM B731-1991 60％钯－40％银电触头材料50ASTM B736-1992a 电缆用铝、铝合金和包铝钢屏蔽带材50ASTM B738-1984(1988) 电导体用细铜线多股绞合和绳多股绞合铜导线" 50ASTM B739-1993 镍铁铬硅合金非标准尺寸焊管50ASTM B740-1991 铜镍锡亚稳合金带材50ASTM B742-1990 纯银电触头加工材50ASTM B743-1992a 无缝铜盘管50ASTM B744/B744M-1985(1990) 波纹铝管用铝合金薄板50ASTM B745/B745M-1992 下水道与排水管用波纹铝管50ASTM B746/B746M-1989a 现场拴接管道、管拱和拱用的铝合金波纹结构板50ASTM B747-1989 铜锆合金薄板和带材50ASTM B753-1986 双金属片组元用合金50ASTM B755-1993 镍铬钼钨合金(UNS N06110)中厚板、薄板和带材50ASTM B756-1993 镍铬钼钨合金(UNS N06110)棒材和条材50ASTM B757-1990 镍铬钼钨合金(UNS N06110)标准尺寸焊管50ASTM B758-1986 镍铬钼钨合金(UNS N06110)非标准尺寸焊管50ASTM B759-1986 镍铬钼钨合金(UNS N06110)无缝管50ASTM B75M-1992a 无缝铜管(米制) 50ASTM B760-1986(1993) 钨中厚板、薄板和箔材50ASTM B763-1990 阀门用铜合金砂型铸件50ASTM B768-1990 铜钴铍合金带材和薄板50ASTM B770-1990 一般用途的铜铍合金砂型铸件50ASTM B774-1987(1993) 低熔点合金50ASTM B776-1991 铪和铪合金带、薄板及中厚板50ASTM B777-1987(1993) 高密度钨基金属50ASTM B778-1992 型线紧密同心绞合铝导线(AAC/TW) 50ASTM B779-1991 钢芯型线紧密同心绞合铝导线(ACSR/TW) 50ASTM B780-1987 75％－24.5％铜－0.5％镍电触头合金50ASTM B784-1988 绝缘电缆用改进型同心绞合铜导线50ASTM B785-1988 绝缘电缆用改进型紧密圆形同心绞合铜导线50ASTM B786-1988 后继绝缘用19线外层搭配单向绞合1350铝导线50ASTM B787-1988 后继绝缘用19线外层搭配单向绞合铜导线50ASTM B800-1988 电气用退火和中间状态的8000系列铝合金线50ASTM B801-1988 后继加包皮或绝缘用的8000系列铝合金同心绞合导线50ASTM B80-1991 镁合金砂型铸件60ASTM B802-1989 钢芯铝绞线(ACSR)用锌－5％铝－混合稀土合金镀层钢芯钢丝50 ASTM B803-1989 钢芯铝和铝合金绞合导线用高强度锌－5％铝－混合稀土合金镀层钢芯钢丝50ASTM B804-1989 UNS N08367合金标准尺寸焊管50ASTM B805-1990 UNS N07716和UNS N07725沉淀硬化镍合金条材和线材50ASTM B806-1990 一般用途的铜合金金属型铸件50ASTM B811-1990 核反应堆燃料包壳用形变锆合金无缝管60ASTM B813-1991 铜和铜合金管材用的液态焊剂及焊膏50ASTM B814-1991 镍铬铁钼钨合金(UNS N06920)中厚板、薄板和带材50ASTM B815-1991 钴－铬－镍－钼－钨合金(UNS R31233)棒材50ASTM B818-1991 钴－铬－镍－钼－钨合金(UNS R31233)中厚板、薄板和带材50ASTM B819-1992 医用气体装置用无缝铜管50ASTM B8-1990 硬态、半硬态或软态同心绞合铜导线50ASTM B824-1992 铜合金铸件一般要求50ASTM B85-1992a 铝合金压铸件50ASTM B88M-1992 无缝铜水管(米制) 50ASTM B90/B90M-1993 镁合金薄板和厚板50ASTM B91-1992 镁合金锻件50ASTM B9-1990 青铜电车架空线50ASTM B92/B92M-1989 重熔用镁锭及镁棒50ASTM B93/B93M-1992 砂型铸件、永久型铸件及压铸件用镁合金锭50ASTM B94-1992 镁合金压铸件50ASTM B96-1992 一般用途及压力容器用的铜硅合金厚板、薄板、带材和轧条50ASTM B98M-1984 铜硅合金棒材、条材和型材(米制) 50ASTM B99M-1986a 一般用途的铜硅合金线材(米制) 50。

ASTM B类标准目录字体大小：大- 中- 小isobook发表于07-11-25 23:07 阅读(2641) 评论(10) ASTM B100-03a 桥与其他结构用锻制铜合金支承板和膨胀板及薄板规格ASTM B1-01(2007) 冷拉铜丝规格ASTM B101-07 建筑用包铅薄铜薄板和带材规格ASTM B102-2000(2005) 铅和锡合金模铸件规格ASTM B103/B103M-07 磷铜中厚板、薄板、带材和轧制棒材规格ASTM B105-05 电导线用冷拉制铜合金线ASTM B106-1996(2002)e1 恒温器金属挠性的试验方法ASTM B107/B107M-07 镁合金挤压棒材、条材、型材、管和线材规格ASTM B108-06 铝合金永久型模铸件规格ASTM B111/B111M-04 铜和铜合金无缝冷凝管和套圈坯料规格ASTM B114-07 分流器与精密电阻器用薄板材料的温度-电阻常数的测试方法ASTM B115-00(2004) 电解铜规格ASTM B116-95(2007) 工业运输用9号深槽铜及8号铜制电车架空线ASTM B117-07 盐雾喷射器操作规程ASTM B121/B121M-01(2006) 含铅黄铜中厚板、薄板、带材和轧制棒材ASTM B122/B122M-06 铜镍锡合金、铜镍锌合金（镍银）和铜镍合金中厚板、薄板、带材及轧制棒材规格ASTM B124/B124M-06 铜和铜合金锻制线材、棒材和型材规格ASTM B127-05 镍铜合金板(UNS No.4400)中厚板、薄板和带材规格ASTM B129-07 铜锌合金弹壳火帽壳规格ASTM B130-02 商用弹头壳青铜带材ASTM B131-07 铜合金子弹壳帽规格ASTM B134/B134M-05 黄铜丝规格ASTM B135-02 标准无缝铜管ASTM B135M-00(2006) 无缝黄铜管规格(米制)ASTM B136-84(2003) 铝表面阳极镀层耐蚀性的测定方法ASTM B137-95(2004) 测量阳极镀铝层每单位重量的试验方法ASTM B138/B138M-06 锰青铜线材、棒材和型材规格ASTM B139/B139M-07 磷青铜线材、棒材和型材规格ASTM B140/B140M-07 铜锌铅（红铜或硬青铜）线材、棒材和型材规格ASTM B148-97(2003)e1 铝青铜砂型铸件规格ASTM B150/B150M-03 铝青铜线材、棒材和型材规格ASTM B151/B151M-05 铜镍锌合金（镍银）和铜镍线材及棒材规格ASTM B152/B152M-06a 铜薄板、中厚板和轧制棒材规格ASTM B153-05 铜与铜合金管及配管膨胀(针试验)试验法ASTM B154-05 铜和铜合金硝酸亚汞试验的试验方法ASTM B159/B159M-05 磷青铜丝技术规范ASTM B16/B16M-05 制螺钉机用易切削黄铜条材、棒材和型材ASTM B160-05 镍线材和棒材规格ASTM B161-05 镍无缝管规格ASTM B162-99(2005) 镍中厚板、薄板和带材规格ASTM B163-04 冷凝器和热交换器用无缝镍及镍合金管规格ASTM B164-03 镍铜合金线材、棒和丝规格ASTM B165-05 镍铜合金（UNS N04400）无缝管规格ASTM B166-06 镍铬铁合金(UNS N06600, N06601, N06603, N06690, N06693, N06025和N06045)和镍铬铁钼合金(UNS N06617)线材、棒材和丝规格ASTM B167-06 镍铬铁合金(UNS N06600、N06601、N06603、N06690、N06693、N06025和N06045)和镍铬钴钼合金(UNS N06617)无缝管规格ASTM B168-06 镍铬铁合金(UNS N06600、N06601、N06603、N06690、N06693、N06025和N06045)和镍铬钴钼合金(UNS N06617)中厚板、薄板及带材规格ASTM B169/B169M-05 铝青铜薄板、带材和轧制棒材规格ASTM B170-99(2004) 无氧电解铜精炼型材ASTM B171/B171M-04e1 压力容器、冷凝器和热交换器用铜合金中厚板及薄板规格ASTM B172-01a(2007)e1 电导线用成束绞绳铜导线ASTM B173-01a(2007)e1 导线用同芯多股绞绳铜导线ASTM B174-02(2007)e1 电导线用成束绞捻的铜导线ASTM B176-04 铜合金模铸件规格ASTM B177-01(2006)E1 工程镀铬指南ASTM B179-06 所有铸造工艺铸件用铝合金锭和溶融铝合金规格ASTM B183-79(2004)E1 电镀用低碳钢的制备规程ASTM B187/B187M-06 铜母线、线材和型材以及通用线材、棒材和型材规格ASTM B188-02 卫生设施用无缝铜管ASTM B189-05 电气用铅涂覆和铅合金涂覆软铜线的标准规范ASTM B19-05 铜锌合金薄板、带材、中厚板、棒材和盘片规格ASTM B193-02 电导线材料电阻率的测试方法ASTM B194-01e1 铜铍合金中厚板、薄板、带和轧制棒规格ASTM B196/B196M-07 铜铍合金条及棒ASTM B197/B197M-07 铜铍合金丝规格ASTM B199-07 镁合金永久型模铸件规格ASTM B2-00(2005)e1 中等硬度冷拉铜丝ASTM B200-85(2004) 钢及铁合金表面铅与铅锡合金电解沉积镀层规格ASTM B201-80(2004) 锌和镉表面铬酸盐涂层试验规程ASTM B206/B206M-07 铜镍锌合金(镍银)丝和铜镍合金丝规格ASTM B208-06 铜合金砂模、永久性成型、离心和连续铸造的铸件用拉力试验试样制备规程ASTM B209-07 铝及铝合金薄板和中厚板规格ASTM B209M-07 铝及铝合金薄板和中厚板规格(米制)ASTM B21/B21M-06 船用黄铜线材、棒材和型材规格ASTM B210-04 拉制铝与铝合金无缝管规格ASTM B210M-05 拉制无缝铝和铝合金管规格(米制)ASTM B211-03 铝与铝合金棒材、线材及丝规格ASTM B211M-03 铝与铝合金棒材、线材和丝规格(米制)ASTM B212-99(2006) 使用霍耳流动性测量仪漏斗的粉状金属粉末表面密度的试验方法ASTM B213-03 金属粉末流速的测试方法ASTM B214-07 金属粉末筛析试验方法ASTM B215-04 金属粉末取样规程ASTM B216-97(2003) 韧性火法精炼铜--精炼型材规格ASTM B22-02 桥梁和转台用青铜铸件规格ASTM B221-06 铝与铝合金挤压棒材、线材、丝、型材和管规格ASTM B221M-07 铝与铝合金挤压棒材、线材、丝、型材和管材规格(米制)ASTM B223-03 恒温器金属的弹性模量的测试方法(悬臂梁法)ASTM B224-04 铜的分类ASTM B226-04 有心的圆形同心绞捻铜导线ASTM B227-04 冷拉包铜钢丝ASTM B228-04 同心绞捻的包铜钢导线ASTM B229-04 同心绞捻的铜与包铜钢丝复合导线ASTM B230/B230M-07 电气用1350-H19型铝线ASTM B231/B231M-04 同心绞捻铝1350导线ASTM B232/B232M-01e1 涂覆钢芯加强的同心绞捻铝导线(ACSR)ASTM B233-97(2007) 电气用1350铝拉制坯料ASTM B233-97(2007) 电工用铝1350型拉制坯料规格ASTM B234-04 冷凝器和热交换器用拉制无缝铝和铝合金管规格ASTM B234M-04 冷凝器和热交换器用拉制无缝铝和铝合金管规格(米制)ASTM B236-07 电工用铝棒(母线)规格ASTM B236M-07 电工用铝棒材(母线)规格(米制)ASTM B237-01(2006) 精制锑规格ASTM B240-07 铸造件与模铸件用锌和锌铝合金锭规格ASTM B241/B241M-02 铝和铝合金无缝管和挤压无缝管规格ASTM B242-99(2004)E1 电镀用高碳钢的制备规程ASTM B243-06 粉末冶金名词术语ASTM B244-97(2002) 用涡流仪测量铝上阳极镀层厚度及非磁性基底金属上其它不导电镀层厚度的测量方法ASTM B246-05 电工用镀锡冷拉和中冷拉铜线规格ASTM B247-02a 铝和铝合金压锻件、手工锻件和轧制环锻件规格ASTM B247M-02a 铝合金压锻件、手工锻件和轧制环锻件规格(米制)ASTM B248-07 锻制铜和铜合金中厚板、薄板、带和轧制棒的一般技术要求规格ASTM B248M-07 锻造铜及铜合金板、薄板、带及轧制棒材(米制)ASTM B249/B249M-06 锻制熟铜和铜合金条材、棒材、型材和锻件的一般要求规格ASTM B250/B250M-07 锻造铜合金线通用要求规格ASTM B251-02e1 锻造铜和铜合金无缝管的一般技术要求规格ASTM B251M-97(2003) 锻造铜和铜合金无缝管的一般技术要求规格(米制)ASTM B252-92(2004) 电镀和转化涂层用锌合金压铸件的制备规程ASTM B253-87(2005)E1 电镀用铝合金的制备导则ASTM B254-92(2004)E1 不锈钢的处理及电镀规程ASTM B258-02 作电导体的实心圆导线的美国线规的标准公称直径和横截面积的技术规范ASTM B26/B26M-05 铝合金砂模铸件规格ASTM B263-04 多股绞合导线横截面积的测试方法ASTM B265-06b 钛和钛合金带材、薄板及中厚板规格ASTM B267-07 线绕电阻器用金属丝规格ASTM B271-06 铜基合金离心铸造件规格ASTM B272-07 有精制边缘的(轧制或拉制)的扁铜制品(扁丝或带)的规格ASTM B275-05 铸造和锻造某些有色金属及合金编码规程ASTM B276-05E1 硬质合金表面孔隙率的试验方法ASTM B277-95(2006) 电接触材料硬度的试验方法ASTM B279-04 制造磁导线用方形及矩形软裸铜线和铝线刚度的试验方法ASTM B280-03 空气调节及制冷用无缝铜管规格ASTM B281-88(2001) 电镀层和转化镀层用铜和铜基合金的制备规程ASTM B283-06 铜和铜合金模锻件（热压）规格ASTM B286-07 电气设备用铜连接线ASTM B29-03 精炼铅规格ASTM B294-92(2006) 硬质合金的硬度测试方法ASTM B296-03 铸造和锻造镁合金回火标志推荐规程ASTM B298-07 镀银的软的或退火的铜线ASTM B299-01 钛海绵规格ASTM B30-06a 铜合金锭规格ASTM B3-01(2007) 软的或退火的铜线ASTM B301-B301M-04 快削铜线材、棒材、丝和型材规格ASTM B302-02 标准尺寸无螺纹铜管规格ASTM B306-02 铜排放管(DWV)规格ASTM B308-B308M-02 铝合金6061-T6标准结构型材的规格ASTM B311-93(2002)E1 测定含2%以下孔隙度的粉未冶金（P/M）材料密度的试验方法ASTM B312-96(2002) 压实的金属粉末试样生坯强度的测试方法ASTM B313-B313M-02e1 焊接铝和铝合金圆管规格ASTM B315-06 无缝铜合金管和管子标准规范ASTM B316-B316M-02 铝和铝合金铆钉以及冷锻线和线材规格ASTM B317-B317M-07 电工用铝合金挤压条、棒、管、导管和结构型材规格（母线）ASTM B319-91(2004) 电镀用铅和铅合金制备导则ASTM B32-04 焊接用金属规格ASTM B320-60(2003)E1 电镀用铁铸件制备的推荐规程ASTM B322-99(2004) 电镀前金属的清洗规程ASTM B324-01(2007) 电气用矩形和方形铝线规格ASTM B327-01(2005) 制造锌模铸合金用主合金的规格ASTM B328-96(2003)E1 烧结金属结构零件和油浸轴承的密度、含油量与互连多孔性的试验方法ASTM B329-06 用斯科特容积计测定金属粉末及化合物表观密度的试验方法ASTM B330-07 金属粉末及相关化合物费歇尔数目的试验方法ASTM B33-04 气用镀锡软的或退火的铜线ASTM B331-95(2002) 单轴压缩的金属粉未可压缩性的试验方法ASTM B333-03 镍钼合金中厚板、薄板和带材规格ASTM B335-03 镍钼合金线材规格ASTM B338-06a 冷凝器和热交换器用钛与钛合金无缝管及焊接管规格ASTM B339-00(2005) 锡块规格ASTM B343-92a(2004)E1 镍电镀用镍的制备规程ASTM B344-01 电加热元件用拉制或轧制镍铬和镍铬铁合金规格ASTM B345-B345M-02 气体与油输送和配给管线系统用铝和铝合金无缝管及挤压管规格ASTM B348-06a 钛和钛合金棒材和坯规格ASTM B349-B349M-03 核设备用海绵锆和其他形态的原金属规格ASTM B350-B350M-02(2006) 核设备用锆和锆合金锭规格ASTM B351-B351M-07 核设备用热轧和冷加工精制锆与锆合金棒材、条材及线材规格ASTM B352-B352M-02(2006) 核设备用锆与锆合金薄板、带材及中厚板规格ASTM B353-07 核设施用锻制锆和锆合金无缝管与焊接管（除核燃料包壳外）规格ASTM B354-05 不绝缘的金属电导体的相关术语ASTM B355-06 软的或退火的镀镍铜丝ASTM B359-B359M-02(2006) 冷凝器及带集成散热片的热交换器的铜和铜合金无缝管规格ASTM B36-B36M-06 黄铜中厚板、薄板、带材和轧制棒材规格ASTM B360-01 限流器用冷拉铜毛细管规格ASTM B361-02 工厂制锻制铝和铝合金焊接配件规格ASTM B362-91(2003) 恒温金属螺旋形盘管的机械扭转率的试验方法ASTM B363-06a 无缝和焊接的非合金钛与钛合金焊接配件规格ASTM B364-96(2002) 钽和钽合金锭规格ASTM B365-98(2004) 钽和钽合金线材和丝规格ASTM B366-04be1 工厂制锻制镍和镍合金配件规格ASTM B367-06 钛和钛合金铸件规格ASTM B368-97(2003)E1 铜-加速醋酸盐水喷雾试验（CASS试验）的试验方法ASTM B369-06 铜镍合金铸件规格ASTM B370-03 建筑结构用铜薄板和带材规格ASTM B37-03 铁和钢制造用铝规格ASTM B371-B371M-06 铜锌硅合金线材规格ASTM B372-97(2003) 无缝铜及铜合金矩形波导管ASTM B373-00(2006) 电容器用铝箔规格ASTM B374-06 有关电镀的术语ASTM B379-04 增磷铜精炼型材ASTM B380-97(2002) 用涂膏耐蚀试验法的装饰电镀层的腐蚀试验方法ASTM B381-06a 钛和钛合金锻件规格ASTM B386-03 钼和钼合金中厚板、薄板、带材和箔规格ASTM B387-90(2001) 钼与钼合金棒、线材和丝规格ASTM B388-06 恒温金属薄板和带材的规格ASTM B389-81(2004) 恒温金属螺旋形线圈的热偏转率的测试方法ASTM B390-92(2006) 钨硬质合金表观晶粒尺寸及其分布的评定规程ASTM B391-03 铌和铌合金锭规格ASTM B392-03 铌和铌合金棒材、线材和丝规格ASTM B393-05 热交换器和冷凝器马蹄形弯头铜及铜合金无缝管规格ASTM B394-03 铌与铌合金无缝管和焊接管规格ASTM B395-B395M-02 热交换器和冷凝器马蹄形弯头铜及铜合金无缝管规格ASTM B39-79(2004) 镍的规格ASTM B398-B398M-02(2007) 电工用6201-T81铝合金丝规格ASTM B399-B399M-04 同心绞捻的6201-T81型铝合金导线ASTM B400-04 紧密的圆形同心绞捻的1350型铝导线规格ASTM B401-04 致密圆形钢芯加强同心绞捻铝导线规格(ACSR/COMP) ASTM B403-07 镁合金熔模铸件规格ASTM B406-96(2005) 硬质合金横向断裂强度的试验方法ASTM B407-04 无缝镍铁铬合金管规格ASTM B408-06 镍铁铬合金线材和棒材规格ASTM B409-06e1 镍铁铬合金中厚板、薄板和带材规格ASTM B411-B411M-06 铜镍硅合金线材和棒材规格ASTM B413-97a(2003) 精炼银规格ASTM B415-98(2007) 冷拉制包铝钢丝ASTM B416-98(2007) 同心绞捻包铝钢导线ASTM B417-00(2006)E1 用Carney漏斗的非自由流动金属粉末表观密度的试验方法ASTM B418-06 铸造和锻造的电镀锌阳极规格ASTM B42-02e1 标准尺寸的无缝铜管规格ASTM B422-06 铜铝硅钴合金、铜镍硅镁合金、铜镍硅合金、铜镍铝镁合金和铜镍锡合金薄板及带材规格ASTM B423-05 镍铁铬钼铜合金(UNS N08825和N08221)无缝管规格ASTM B424-05 镍铁铬钼铜合金中厚板、薄板和带材规格(UNS NO8825和NO8221)ASTM B425-99(2005) 镍铁铬钼铜合金(UNS N08825 和UNS N08221)线材和棒材规格ASTM B427-02 齿轮青铜合金铸件规格ASTM B428-93(2004) 矩形和方形铜与铜合金管扭转角的测试方法ASTM B429/B429M-06 挤压铝合金结构管规格ASTM B430-97(2006)E1 用比浊法测定耐火金属粉末的粒径分布的试验方法ASTM B432-04 包铜及包铜合金的钢中厚板规格ASTM B434-06 镍钼铬铁合金(UNS N10003, UNS N10242)中厚板、薄板和带材规格ASTM B435-06 UNS NO6002、UNS NO6230、UNS N12160 和UNS R30556中厚板、薄板和带材规格ASTM B438/B438M-05 烧结青铜轴承（油浸）规格ASTM B439-07 铁基粉末冶金轴承(油浸的)规格ASTM B43-98(2004) 无缝红铜管尺寸ASTM B440-00(2005) 镉规格ASTM B441-04 铜钴铍、铜镍铍和铜镍铅铍线材及棒材(UNS Nos. C17500, C17510和C17465) 规格ASTM B443-00(2005) 镍铬钼铌合金(UNS N06625)和镍铬钼硅合金(UNS N06219)中厚板、薄板及带材规格ASTM B444-06 镍铬钼钶合金(UNS NO6625)和镍铬钼硅合金（UNS N06219）管规格ASTM B446-03 镍铬钼铌合金(UNS NO6625)、镍铬钼硅合金(UNS N06219)和镍铬钼钨合金(UNS N06650)线材及棒材规格ASTM B447-07 焊接铜管规格ASTM B449-93(2004) 铝的铬酸盐处理规程ASTM B452-02 电子设备用包铜钢导线规格ASTM B453/B453M-05 铜锌铅合金（加铅黄铜）线材、棒材和型材规格ASTM B455-05 铜锌铅合金(加铅黄铜)挤压型材规格ASTM B456-03 铜+镍+铬及镍+铬的电解沉积镀层规格ASTM B457-67(2003) 测量铝表面阳极镀层阻力的方法ASTM B462-06 腐蚀高温作业用锻制或轧制UNS N06030、N06022、N06035、N06200、N06059、N06686、UNS NO8020、UNS NO8024、UNS NO8026和UNS NO8367N10276、N10665、N10675、N10629、N08031、N06045、N06025和R20033 合金管法兰、锻制配件、阀门和零件规格ASTM B463-04 UNS NO8020、UNS NO8026和UNS NO8024合金中厚板、薄板和带材规格ASTM B464-05 焊接的UNS NO8020、NO8026和NO8024合金管规格ASTM B465-04 铜铁合金中厚板、薄板、带材和轧制棒规格ASTM B466/B466M-03 铜镍无缝管规格ASTM B467-88(2003) 焊接铜镍合金管规格ASTM B468-04 UNS N08020、N08024和N08026焊接合金管规格ASTM B470-02(2007) 电子设备布线用电线用连接铜导线规格ASTM B472-04a UNS NO8020、UNS NO8024和UNS NO8026镍合金棒和丝规格ASTM B473-07 UNS NO8020、UNS NO8024和UNS NO8026镍合金棒和丝规格ASTM B474-03 电熔焊镍合金管规格ASTM B475-07 UNS NO8020、UNS NO8026和UNS NO8024镍合金编织圆丝规格ASTM B476-01(2006) 锻制贵金属电接触材料的一般要求规格ASTM B477-97(2002) 金银镍电接触合金规格ASTM B478-85(2003) 恒温金属横向弯曲的测试方法ASTM B479-06 与食品接触及其他用途的软质包装用退火铝及铝合金箔规格ASTM B47-95a(2007) 铜电车电线规格ASTM B48-00(2005)e1 电导线用矩形和正方形软裸铜线ASTM B480-88(2006) 电镀用镁和镁合金制备的规程ASTM B481-68(2003)E1 电镀用钛和钛合金制备的规程ASTM B482-85(2003) 电镀用钨和钨合金制备的规程ASTM B483-B483M-03 通用铝和铝合金拉制管规格ASTM B487-85(2007) 用横断面显微观察法测定金属及氧化层厚度的试验方法ASTM B488-01(2006) 工程用金电镀层规格ASTM B489-85(2003) 金属表面电解沉积和自动催化沉积金属镀层延伸性的弯曲试验规程ASTM B490-92(2003) 用微量计弯曲试验法测定电解沉积物延伸性的规程ASTM B491-B491M-06 通用铝与铝合金挤压圆管规格ASTM B493-01(2003) 锆和锆合金锻件规格ASTM B494-B494M-03 原生锆规格ASTM B495-05 锆和锆合金锭规格ASTM B496-04 紧密的圆形同心绞捻铜导线ASTM B497-00(2006) 测量闭合灭弧触点电压降的指南ASTM B498-B498M-98(2002) 钢芯铝线（ACSR）用镀锌钢芯线规格ASTM B49-98(2004) 电气用经回火的铜条材ASTM B499-96(2002) 用磁化法测量磁性基底金属材料的非磁化涂层厚度的试验方法ASTM B5-00(2005) 高导电性韧铜精制带材规格ASTM B500-B500M-98(2002) 钢芯加强的铝导线用镀金属层的钢芯线(ACSR)ASTM B501-04 电气用镀银包铜钢丝ASTM B502-02(2007) 包铝钢芯铝导线用包铝钢芯线规格ASTM B504-90(2007) 用电量测定法测量金属镀层厚度的试验方法ASTM B505-B505M-07 连续浇铸的铜基合金铸件规格ASTM B507-86(2003) 在机架上电镀机件的设计规程ASTM B508-97(2003) 柔性金属软管用的铜合金带材规范ASTM B511-01(2005) 镍铁铬硅合金棒材和型材规格ASTM B512-04 镍铬硅合金(UNS NO8330)坯段和棒规格ASTM B514-05 镍铁铬合金焊接管规格ASTM B515-95(2002) 焊接合金管(UNS N08120、UNS N08800、UNS N88810和UNS N08811)规格ASTM B516-03 焊接镍铁铬合金(UNS NO6600)管规格ASTM B517-05 焊接镍铁铬合金(UNS NO6600、UNS N06603、UNS N06025和UNS N06045)管规格ASTM B520-93(2007) 电子设备用镀锡包铜钢丝规格ASTM B521-98(2004) 钽和钽合金无缝管及焊接管规格ASTM B522-01(2006) 金银铂电接触合金规格ASTM B523-B523M-07 锆和锆合金无缝管及焊接管规格ASTM B524-B524M-99(2005) 铝合金芯增强的同心绞捻铝导线(ACAR-1380/6201)规格ASTM B527-06 测定金属粉末和化合物塔普密度的试验方法ASTM B528-05 金属粉末样品横向断裂强度的试验方法ASTM B530-02 用磁性法测量磁性和非磁性基底上的电解沉积镍层厚度的方法ASTM B532-85(2007) 电镀塑料表面外观规格ASTM B533-85(2004) 镀金属塑料抗斯裂强度的试验方法ASTM B534-01 铜钴铍合金和钢镍铍合金中厚板、薄板、带材及轧制棒材规格ASTM B535-06 镍铁铬硅合金(UNS NO8330和UNS NO8332)无缝管规格ASTM B536-07 镍铁铬硅合金(UNS NO8330和UNS NO8332)中厚板、薄板和带材规格ASTM B537-70(2007) 大气暴露下电镀面板评定规程ASTM B539-02e1 测量电接头（静触点）电阻的试验方法ASTM B540-97(2002) 电接触用钯合金规格ASTM B541-01(2006 电接触用金合金规格ASTM B542-07 有关电触点及其使用的术语ASTM B543-96(2003) 焊接的铜及铜合金热交换管ASTM B545-97(2004)E1 锡电镀层规格ASTM B546-04 电熔焊镍铬钴钼合金(UNS N06617)、镍铁铬硅合金(UNS N08330 and UNS N08332)、镍铬铁铝合金(UNS N06603)、镍铬铁合金(UNS N06025)和镍铬铁硅合金(UNS N06045)管规格ASTM B547-B547M-02 铝和铝合金电弧焊圆铸管规格ASTM B548-03 压力容器用铝合金板的超声波检验方法ASTM B549-04 铝覆钢芯的同心绞合铝导线(ACSR/AW)规格ASTM B550-B550M-07 锆和锆合金棒材及线材规格ASTM B551-B551M-07 锆和锆合金带材、薄板及中厚板规格ASTM B552-98(2004) 水淡化厂用无缝与焊接铜镍管规格ASTM B555-86(2007) 用滴定试验法测量电解沉积金属镀层厚度的导则ASTM B556-90(2007) 用抽查试验法测量薄镀铬层厚度的导则ASTM B557-06锻制和铸造的铝及镁合金制品的拉力试验方法ASTM B557M-07 锻制和铸造的铝及镁合金制品的拉力试验方法(米制)ASTM B558-79(2003) 电镀用镍合金制备规程ASTM B559-93(2007) 电气用镀镍包铜钢丝ASTM B560-00(2005) 现代铅锡锑合金规格ASTM B561-94(2005) 精炼铂规格ASTM B562-95(2005) 精炼金规格ASTM B563-01(2006) 电接触用钯银铜合金规格ASTM B564-06a 镍合金锻件规格ASTM B565-04 铝和铝合金铆钉及冷锻丝与线材的剪切试验方法ASTM B566-04a 包铜铝丝规格ASTM B567-98(2003) 用β射线反向散射法测量镀层厚度的试验方法ASTM B568-98(2004) 用X射线光谱测定法测量镀层厚度的试验方法ASTM B569-04 热交换器管用窄型和轻量型黄铜带材规格ASTM B570-06 铜铍合金(UNS No. C17000 and C17200) 锻件和挤压件ASTM B571-97(2003) 金属镀层定性粘附性的试验方法ASTM B572-06 UNS NO6002、UNS NO6230、UNS N12160和UNS R30556线材规格ASTM B573-06 镍钼铬铁合金(UNS N10003、N10242)线材规格ASTM B574-06e1 低碳镍铬钼、低碳镍钼铬钽、低碳镍铬钼铜和低碳镍铬钼钨合金线材规格ASTM B575-06 低碳镍铬钼、低碳镍铬钼铜、低碳镍铬钼钽和低碳镍铬钼钨合金的中厚板、薄板及带材规格ASTM B576-94(2005) 电接触材料的电弧侵蚀试验指南ASTM B577-93(2004)e1 检测铜中氧化亚铜（氢脆敏感性）的试验方法ASTM B578-87(2004) 电镀层显微硬度的测量方法ASTM B579-73(2004) 锡铅合金电解沉积镀层(焊料板)规格ASTM B580-79(2004) 铝阳极氧化镀层规格ASTM B581-02 镍铬铁钼铜合金线材规格ASTM B582-02 镍铬铁钼铜合金板、薄板和带材规格ASTM B584-06a 通用铜合金砂模铸件规格ASTM B587-06 焊接的黄铜管规格ASTM B588-88(2006) 用双光束干扰显微术测量透明涂层或不透明涂层厚度的试验方法ASTM B589-94(2005) 精制钯规格ASTM B591-04 铜锌锡和铜锌锡铁镍合金板、薄板、带材及轧制的棒材标准规范ASTM B592-01(2006) 铜锌铝钴合金、铜锌锡铁合金中厚板、薄板、带材及轧制棒材规格ASTM B593-96(2003)e1 铜合金弹性材料的弯曲疲劳试验方法ASTM B594-06 航空设备用铝合金锻制品的超声波检验方法ASTM B595-95(2006) 烧结铝构件规格ASTM B596-89(2006) 金铜合金电接触材料的规格ASTM B598-98(2004) 抗拉试验中铜合金偏置屈服强度的测定ASTM B599-92(2003)e1 稳定的镍铁铬钼钶合金(UNS NO8700)中厚板、薄板及带材规格ASTM B600-91(2002)e1 钛和钛合金表面去垢与清洗指南ASTM B601-07 锻制及铸造的铜和铜合金回火名称的分类ASTM B602-88(2005) 金属和无机涂层的属性抽样试验方法ASTM B603-07 电热元件用拉制或轧制铁铬铝合金的规格ASTM B604-91(2003)E1 塑料表面装饰铜/镍/铬电镀层规格ASTM B605-95a(2004) 锡镍合金电解沉积镀层规格ASTM B606-02 钢芯铝和铝合金导线用高强度镀锌钢芯线规格ASTM B6-07 锌规格ASTM B607-91(2003) 工程用自动催化镍硼涂层规格ASTM B608-02 铜合金焊接管规格ASTM B609-B609M-99(2004) 电气用退火及中温回火的1350型铝圆线ASTM B610-00E1 测量金属粉未试样尺寸变化的试验方法ASTM B61-02 蒸气或阀门青铜铸件的标准规范ASTM B611-85(2005) 硬质合金耐磨性试验方法ASTM B613-76(2006) 滑动电触点用复合材料微型电刷规格的编写指南ASTM B614-05 锆与锆合金表面除锈及清洁规程ASTM B615-79(2006) 滑动电触点电接触噪音的测定规程ASTM B616-96(2006) 精制铑规格ASTM B617-98(2004) 电接触用铸银合金的规程ASTM B618-06 铝合金溶模铸件规格ASTM B619-06 焊接的镍和镍钴合金管规格ASTM B620-03 镍铁铬钼合金(UNS NO8320)板、薄板和带材规格ASTM B62-02 混合青铜或少量金属铸件标准规范ASTM B621-02(2006) 镍铁铬钼合金(UNS NO8320)线材规格ASTM B622-06 镍与镍钴合金无缝管规格ASTM B624-99(2005)e1 电子设备用高强度高导电性铜合金丝规格ASTM B625-05 UNS N08925、UNS N08031、UNS N08932、UNS N08926和UNS R20033中厚板、薄板和带材规格ASTM B626-06 焊接镍和镍钴合金管规格ASTM B628-98(2004) 电触头银铜低共溶合金规格ASTM B629-77(2003) 电镀用钼和钼合金制备规程ASTM B63-07 金属导电电阻及电接触材料电阻率的测试方法ASTM B630-88(2006) 电镀用铬的制备规格ASTM B631-93(2004) 银钨电接触材料的规格ASTM B632-B632M-02 轧制的铝合金防滑条规格ASTM B633-07 钢铁表面电镀层规格ASTM B634-88(2004)E1 工程用铑电解沉积镀层规格ASTM B635-00(2004)E1 镉锡机械沉积镀层规格ASTM B636-84(2006)E1 用螺旋收缩仪测量电镀金属镀层内应力的方法ASTM B637-06 高温用沉淀硬化镍合金棒材、锻件和锻坯规格ASTM B639-02 高温用沉积硬化含钴合金(UNS R30155和UNS R30816)线材、棒、锻件及锻坯料规格ASTM B640-00(2006) 空调及制冷设备用焊接铜及铜合金管ASTM B643-00(2005) 铜铍合金无缝管规格ASTM B644-05 铜合金添加剂规格ASTM B645-07 铝合金平面应变断裂韧性测试规程ASTM B646-06a 铝合金的断裂韧性测试规程ASTM B647-84(2006) 用维氏硬度仪测量铝合金压痕硬度的试验方法ASTM B648-78(2006) 用巴氏压痕仪测定铝合金压痕硬度的试验方法ASTM B649-06 镍铁铬钼铜氮低碳合金(UNS N08925、UNS N08031、UNS N08354和UNS N08926)以及铬镍铁氮低碳合金(UNS R20033)棒材和线材规格ASTM B650-95(2002) 铁质基物上电沉积工程镀铬层规格ASTM B651-83(2006) 用双束干涉显微镜测量镍铬或铜镍铬电镀表面腐蚀部位的试验方法ASTM B652-B652M-04 铌铪合金锭规格ASTM B653-B653M-06 无缝与焊接的锆与锆合金焊接配件规格ASTM B654-B654M-04 铌铪合金箔、薄板、带材和中厚板规格ASTM B655-B655M-04 铌铪合金棒材、线材和丝规格ASTM B657-05 硬质钨合金微观结构金相测定的试验方法ASTM B658-B658M-06 锆与锆合金无缝管及焊接管规格ASTM B659-90(2003) 金属及无机涂层厚度测量指南ASTM B66-B66M-06 蒸汽机车易损件用青铜铸件规格ASTM B660-02 铝和镁产品封装/包装规程ASTM B661-06 镁合金热处理规程ASTM B662-94(2006) 银钼电接触材料的规格ASTM B663-94(2006) 银钨硬质合金电接触材料的规格ASTM B664-90(2006) 含80%银,20%石墨的滑动接触材料的规格ASTM B665-03 硬质钨合金金相样本的制备导则ASTM B666-B666M-01 铝和镁制品的识别标志规程ASTM B667-97(2003)e1 测量电接触电阻用探测器的结构及使用的规格ASTM B668-05 UNS NO8028无缝管规格ASTM B670-02 高温用沉淀硬化的镍合金(UNS No7718)板、薄板及带材规格ASTM B67-05 车辆及煤水车用有衬里的轴颈轴承标准规格ASTM B671-81(2005) 精炼铱规格ASTM B672-02 稳定的镍铁铬钼铌合金(UNS NO8700)棒和丝规格ASTM B673-05e1 UNS NO8925、UNS N08354和UNS N08926焊接管规格ASTM B674-05 UNS NO8925、UNS N08354和UNS N08926焊接管规格ASTM B675-02 UNS NO8367焊接管标准规范ASTM B676-03 NO8367焊接管规格ASTM B677-05 UNS N08925、UNS N08354和UNS N08926无缝管规格ASTM B678-86(2006) 金属涂覆产品可焊性的试验方法ASTM B679-98(2004)E1 工程用钯电镀层规格ASTM B68-02 光亮退火的无缝铜管规格ASTM B680-80(2004) 用酸溶法测定铝的阳极镀层封闭质量的试验方法ASTM B682-01 电导体的标准米制尺寸规格ASTM B683-01(2006 纯钯电接触材料的规格ASTM B684-97(2002) 铂铱电接触材料规格ASTM B685-01(2006) 钯铜电接触材料的规格ASTM B686-03 高强度铝合金铸件规格ASTM B687-99(2005)e1 镀黄铜、镀铜及镀铬管接头规格ASTM B688-96(2004) 铬镍钼铁(UNS NO8366和UNS NO8367)中厚板、薄板及带材规格ASTM B689-97(2003) 电镀工程镀镍层规格ASTM B68M-99(2005) 光亮退火的无缝铜管(米制)ASTM B690-02 铁镍铬钼合金无缝管标准规范ASTM B69-01a(2005) 轧制锌材规格ASTM B691-02 铁镍铬钼合金(UNS N08366 和UNS N08367)线材、棒材及丝规格ASTM B692-90(2006) 含75%银,25%石墨的滑动电接触材料的规格ASTM B693-91(2006) 银镍电接触材料的规格ASTM B694-03 电缆屏蔽层用铜、铜合金、包铜青铜（CCB）、包铜不锈钢（CCS）和包铜合金钢（CAS）薄板及带材规格ASTM B695-04 钢铁表面锌机械沉积镀层规格ASTM B696-00(2004)E1 镉机械沉积锌镀层的规格ASTM B697-88(2005) 电沉积金属镀层和无机镀层检验用抽样计划的选择指南ASTM B698-02 铜和铜合金卫生设备无缝管的分类ASTM B699-86(2003) 钢铁表面镉真空沉积镀层规格ASTM B700-97(2002) 工程用银电镀层规格ASTM B701-B701M-06 同芯绞捻自阻钢芯加强铝导线(ACSR/SD) B702-93(2004) 铜钨电触点材料ASTM B702-93(2004) 铜钨电接触材料的规格ASTM B703-05 用阿诺德仪器测量粉末表面密度的试验方法ASTM B704-03 合金(UNS NO6625、UNS N06219和NO8825)焊接管规格ASTM B705-05 镍合金(UNS N06625、N06219 和N08825)焊接管规格ASTM B706-00(2006) 无缝铜合金管材规范(UNS No. C69100)ASTM B708-05 钽和钽合金中厚板、薄板及带材规格ASTM B70-90(2007) 电加热用金属材料的电阻随温度变化的测试方法ASTM B709-04 铁镍铬钼合金(UNS NO8028)中厚板、薄板和带材规格ASTM B710-04 镍铁铬硅合金焊接管规格ASTM B711-05 钢芯同芯绞捻铝合金导线规格(AACSR)(6201)ASTM B712-93(2006) 氧化银镉接触材料用钠和钾含量的测定指南ASTM B715-96(2001) 导电用烧结铜构件规格ASTM B717-96(2006) 精炼钌规格ASTM B718-00(2006) 镍铬钼钴钨铁硅合金(UNS NO6333)板、薄板和带材规格ASTM B719-00(2005 镍铬钼钴钨铁硅合金(UNS NO6333)棒材规格ASTM B722-06 镍铬钼钴钨铁合金(UNS N06333)无缝管规格ASTM B723-00(2005) 镍铬钼钴钨铁硅合金(UNS NO6333)焊接管规格ASTM B724-00(2006 用便携式内韦季非卡尺型仪器测量铝合金压痕硬度的试验方法ASTM B725-05 焊接镍(UNS N02200/UNS N02201)和镍铜合金(UNS N04400)管规格ASTM B726-02(2006) 镍铬钼钴钨铁硅合金(UNS NO6333)焊接管规格ASTM B727-04 电镀用塑料的制备规程ASTM B729-05 无缝UNS N08020、UNS N08026和UNS N08024镍合金管规格ASTMB731-96(2006) 60%钯40%银电触点材料规格ASTM B733-04 金属自动催化(化学)镍磷镀层规格ASTM B734-97(2003)E1 工程用电沉积铜规格ASTM B735-06 采用硝酸蒸气的金属底材上金镀层孔隙率试验方法ASTM B736-00(2006) 铝、铝合金和包铝钢电缆屏蔽材料规格ASTM B737-05 热轧和/或冷加工铪线材和丝规格ASTM B738-03 电导线用成束细线和成束绞捻绳索铜导线。

astm b 铜材标准摘要：1.简介2.ASMT B 铜材标准的概述3.ASMT B 铜材的主要性能指标4.我国对ASMT B 铜材的应用及研究现状5.结论正文：ASMT B 铜材是一种广泛应用于各个行业的铜合金材料，具有优良的导电性、导热性、耐腐蚀性和良好的机械强度。

ASMT B 是美国材料与试验协会（ASTM）颁布的一项铜材标准，对铜材的化学成分、力学性能、物理性能等指标进行了详细的规定。

1.简介ASTM B 系列标准涵盖了多种铜材产品，包括铜棒、铜线、铜板、铜管等。

这些标准为铜材的生产、加工、检验、验收等提供了依据，确保了产品质量。

在我国，ASMT B 铜材标准也得到了广泛的应用和推广。

2.ASMT B 铜材标准的概述ASMT B 铜材标准根据不同的产品类型，规定了不同的化学成分、力学性能、物理性能等指标。

以ASTM B111 为例，它规定了无缝铜管的化学成分、尺寸、壁厚、力学性能、物理性能等要求。

在ASTM B280 中，对铜线的化学成分、导电率、力学性能等进行了详细的规定。

3.ASMT B 铜材的主要性能指标ASMT B 铜材的主要性能指标包括导电性、导热性、耐腐蚀性、机械强度等。

其中，导电性和导热性是铜材的重要特性，使其在电力、电子、热交换等领域得到广泛应用。

耐腐蚀性方面，铜材在空气中具有较强的抗氧化性，可长期保持良好的外观和性能。

机械强度方面，ASMT B 铜材具有较高的强度和硬度，可满足不同场合的使用需求。

4.我国对ASMT B 铜材的应用及研究现状在我国，ASMT B 铜材被广泛应用于电力、电子、通信、家电、交通运输等领域。

随着我国经济的快速发展，对铜材的需求逐年增加，促使我国铜材产业不断扩大生产规模，提高产品质量。

同时，我国对ASMT B 铜材的研究也取得了一定的成果，例如在铜材的表面处理、加工技术等方面取得了一定的突破。

5.结论总之，ASMT B 铜材标准为铜材的生产、加工、检验等提供了依据，确保了产品质量。

ASTM B是美国材料和试验协会（ASTM）发布的一系列铜材料标准，主要用于铜及其合金制品的质量控制。

ASTM B的标准适用于铜及其合金制品的生产、检测、规范和使用。

本文将详细介绍ASTM B 的相关内容。

一、ASTM B的定义和作用ASTM B是美国材料和试验协会（ASTM）发布的一系列铜材料标准，主要用于铜及其合金制品的质量控制。

ASTM B的标准适用于铜及其合金制品的生产、检测、规范和使用，包括铜板、铜棒、铜管、铜带等各种铜制品。

ASTM B标准的出台，有助于保证铜及其合金制品的质量，促进产品贸易和技术交流。

二、ASTM B标准的组成ASTM B标准由多个部分组成，其中主要包括以下几个方面：1. ASTM B1~B999：这是ASTM B标准的主体部分，包括了铜及其合金制品的各项质量要求，如化学成分、机械性能、尺寸精度等等。

2. ASTM B1000~B1999：这部分是ASTM B标准的补充规范，主要包括了一些特殊要求和测试方法，如电学性能、耐蚀性能等等。

3. ASTM B2000~B2999：这部分是ASTM B标准的产品规范，主要包括了各种铜及其合金制品的尺寸、形状、表面处理等方面的要求。

4. ASTM B3000~B3999：这部分是ASTM B标准的试验方法规范，主要包括了各种测试方法和检验标准。

5. ASTM B4000~B4999：这部分是ASTM B标准的材料规范，主要包括了各种铜及其合金制品的材质、化学成分等方面的要求。

三、ASTM B标准的应用范围ASTM B标准主要适用于铜及其合金制品的生产、检测、规范和使用。

ASTM B标准的应用范围广泛，涵盖了工业、航空、航天、汽车、建筑等多个领域。

在生产过程中，ASTM B标准可以帮助厂家保证产品的质量稳定，提高产品的竞争力；在产品使用过程中，ASTM B标准可以为用户提供可靠的质量保障，确保产品的性能和安全性。

四、ASTM B标准的重要性ASTM B标准是铜及其合金制品行业中的重要标准之一，具有以下几个方面的重要性：1. 保证产品质量：ASTM B标准规定了铜及其合金制品的各项质量要求，可以帮助厂家保证产品的质量稳定，提高产品的竞争力。

ASTM B标准目录 astmb标准目录astm系列标准目录astm标准号b1-01b2-00b3-01b5-00b6-03b8-04b9-90(2021)b16/b16m-00b19-01b21/b21m-01e1b22-02b23-00b26/b26m-03b29-03b30-04b32-03b33-00b36/b36m-01b37-03b39-79(2021)b42-02e1b43-98(2021)b47-95a(2001)b48-00中文名称冷拉铜线中等硬度冷拉铜丝硬的或淬火的铜线电解紫铜提炼型材锌软的、中等软的或硬的同心钩搓的铜导线青铜制电车架空线制螺钉机用易切削黄铜条材、棒材和型材弹药筒用黄铜片、拎、板、厉害和圆盘(坯料)海军黄铜条材、棒材和型材桥梁和转乘台用青铜铸件白色金属轴承合金(商品名称为"巴氏合金")铝合金砂型铸件提炼铅铜基合金锭金属焊料电气用镀锡硬的或淬火的铜线徐铜板、薄板、带材及合金钢棒材钢铁生产用铝镍无缝铜管尺寸无缝白铜管尺寸电车架空线用铜线电导线用矩形和正方形软裸铜线-1-astm系列标准目录astm标准号b49-98e2b61-02b62-02b63-90(2001)b66-95(2021)b68-02b68m-99b69-01ab70-90(2001)b75-02b75m-99b76-90(2001)b77-81(2001)b78-90(2001)b80-01e1b84-90(2001)b85-03b86-03b88-03b88m-03b90/b90m-98b91-97(2021)b92/b92m-01b93/b93m-03中文名称电气用经淬火的铜条材蒸气或阀门青铜铸件的标准规范混合青铜或少量金属铸件标准规范金属导体电阻与碰触材料的电阻率的测试方法蒸汽机车易损零件用青铜铸件明亮淬火的无缝铜管明亮淬火的无缝铜管(米制)合金钢锌电加热用金属材料的电阻随其温度而变化的试验方法无缝铜管无缝铜管规范（米制）电加热用镍铬和镍铬铁合金的快速寿命的试验方法电阻合金的热电功率的测试方法电加热用铁铬铝合金的快速寿命的试验方法镁合金砂型铸件高精度电阻器用合金丝的温度-电阻常数的测试方法铝合金压模铸件锌合金压模铸件无缝铜水管无缝铜水管(米制)镁合金薄板和中厚板镁合金锻件规范回去熔用镁锭和镁厉害砂型铸件、永久型模铸件和压模铸件用镁合金锭-2-astm系列标准目录astm标准号b94-94(2000)b96/b96m-01b98/b98m-03b99/b99m-01b100-03ab101-02b102-00b103/b103m-98e2b105-00b106-96(2002)e1b107/b107m-00b108-03ab111-98(2021)b111m-98e2b114-90(2001)b115-00b116-95(2001)b117-03b121/b121m-01b122/b122m-01b124/b124m-00b127-98b129-02b130-02中文名称镁合金压铸件的技术规范通常及压力容器用铜硅合金板、薄板、带材及合金钢棒材铜硅合金细、粗棒材和型材技术规范通常用途的铜硅合金线桥梁和其它结构用焖铜合金轴承和收缩中厚板及薄板建筑结构用纸盒铅铜薄板和带材铅和锡合金压模铸件磷青铜板、薄板、带材和合金钢棒材电导线用热切削铜合金线恒温金属挠性的试验方法镁合金侵蚀制棒材、条材、型材、管材和线材铝合金永久型模铸件铜和铜合金无缝冷凝器管及和套圈坯料铜和铜合金无缝冷凝器管及和套圈坯料(米制)分流器与高精度电阻器用薄板材料的温度－电阻常数的测试方法电解阴极铜工业运输用9号深槽铜及8号铜制电车架空线盐雾试验设备的采用标准惯例含铅黄铜中厚板、薄板、带材和合金钢棒材铜镍锡合金、铜镍锌合金(镍银)和铜镍合金板、薄板、带材及合金钢棒材铜和铜合金焖条材、棒材和型材镍铜合金板、薄板和带材弹筒黄铜弹壳火帽壳商用弹头壳青铜带材-3-astm系列标准目录astm标准号b131-02b134/b134m-01b135-02b135m-00e1b136-84(2021)b137-95(2000)b138/b138m-01b139/b139m-01b140/b140m-01b148-97(2021)b150/b150m-03b151/b151m-00b152/b152m-00b153-91(2021)e1b154-01b159/b159m-01b160-99b161-03b162-99b163-04b164-03b165-93(2021)e1b166-04b167-01中文名称铜合金弹头火帽壳黄铜丝无缝黄铜管无缝黄铜管(米制)铝表面阳极镀层的着色阻力的测定方法单位面积阳极铝镀层重量的测定方法锰青铜条材、棒材和型材磷青铜条材、棒材和型材铜锌铅厉害(铅白黄铜或软青铜).棒材和变成型材铝青铜砂型铸件铝青铜条材、棒材和型材铜镍锌合金(镍银)及铜镍条和棒材铜薄板、带材、中厚板及合金钢棒材技术规范铜和铜合金管及的收缩试验法(针试验)铜和铜合金的硝酸亚汞试验法磷青铜丝技术规范镍条和镍厉害技术规范无缝镍管及镍板、薄板及带材冷凝器及热交换器用无缝镍和镍合金管及镍铜合金条材、棒材和线材无缝镍铜合金管规范镍铬铁合金及镍铬钴钼合金条材、棒材及线材无缝镍铬铁合金管-4-astm系列标准目录astm标准号b168-01b169/b169m-01b170-99(2021)b171/b171m-04e1b172-01ab173-01ab174-02b176-04b177-01b179-03b183-79(2021)e1b187/b187m-03b188-02b193-02b194-01e1b196/b196m-03b197/b197m-01b199-99b200-85(2021)b201-80(2000)b209-04b209m-04中文名称镍铬铁合金及镍铬钴钼合金板、薄板和带材铝青铜中厚板、薄板、带材和轧制棒材无氧电解铜精炼型材压力容器、冷凝器及热交换器用铜合金中厚板和薄板电导线用成束绞绳铜导线导线用同芯多股绞绳铜导线电导线用成束绞捻的铜导线压铸件铜合金压模铸件工程用钢表面镀铬砂型铸件、永久型模铸件和压模铸件用铝合金锭及其熔化成形方式电镀用低碳钢的制备铜汇流棒、条和型材汇流无缝铜管导电材料电阻率的测试方法铜铍合金中厚板、薄板、带材和轧制棒材铜铍合金条及棒铜铍合金线镁合金永久型铸件钢及铁合金表面铅和铅锡合金的电解沉积镀层锌和镉的表面铬酸盐覆层试验砂型、永久型、离心型和连续铸造铸件用的铜基合金拉伸试验样件制备标准惯例铝及铝合金薄板和中厚板的技术规范铝及铝合金薄板和中厚板的技术规范(米制)b206/b206m-97(2002)铜镍锌合金线(镍银)和铜镍合金线-5-astm系列标准目录astm标准号b210-02b210m-02b211-03b211m-03b212-99b213-03b214-99b215-96b216-97(2021)b221-02b221m-02b223-03b224-04b226-04b228-04b229-04b231/b231m-04b232/b232m-01e1b233-97(2021)e1b234-02b234m-02b236-00中文名称切削无缝铝和铝合金管切削无缝铝和铝合金管(米制)铝及铝合金棒材、条材和线材铝及铝合金棒材、条材和线材(米制)低流动性金属粉末表观密度的测试方法金属粉末流速的测试方法粒状金属粉末的筛分试验方法金属粉末的最后批量样本方法细工制品及合金用韧性火法精炼铜-提炼型材铝及铝合金侵蚀制条、棒、线、管及和型材铝和铝合金侵蚀制棒材、条材、线材、型材和管材(米制)恒温器用无机金属的弹性模量测试法(悬臂梁法)铜的分类方法无心的圆形同心钩搓铜导线冷拉纸盒铜钢丝同心钩搓的包铜钢导线同心钩搓的铜与包铜钢丝无机导线同心钩搓铝1350导线涂覆钢芯强化的同心钩搓铝导线(acsr)电气用1350铝切削坯料冷凝器及热交换器用切削铝和铝合金无缝管冷凝器及热交换器用切削铝和铝合金无缝管(米制)电气用铝棒(汇流条)b230/b230m-99(2021)电气用1350-h19型铝线-6-astm系列标准目录astm标准号b236m-00b237-01b240-03b241/b241m-02b242-99b243-04ab244-97(2002)b246-00b247m-02ab248-01e1b248m-01e1b249/b249m-02b250/b250m-01b251-02e1b251m-97(2021)b252-92(2021)b253-87(1999)e1b254-92(2021)e1b258-02b263-04b265-03b267-90(2001)b271-96(2021)中文名称电气用铝棒(汇流条)(米制)提炼锑标准规范压模铸成用锌及锌铝合金锭铝及铝合金无缝管和侵蚀制无缝管电镀用高碳钢的制取粉末冶金的术语用涡流仪器测量铝阳极镀层及其它非磁性基底金属绝缘体电镀层厚度的方法电工用中硬拉和软扎镀锡铜线材的标准规范铝和铝合金甩模锻件、手工锻件和合金钢环路锻件铝及铝合金甩模锻件、手工锻件和合金钢环形锻件(米制)切削铜及铜合金板、薄板、中及合金钢棒材切削铜及铜合金板、薄板、中及合金钢棒材(米制)铜和铜合金棒材、型材及锻件切削铜合金丝焖无缝铜及铜合金管及焖无缝铜及铜合金管(米制)电镀层和转变涂层用锌合金压模铸件的制取电镀用铝合金的制取不锈钢上各类金属电镀的标准惯例并作电导体的实心圆导线的美国线规的标准公称直径和横截面内积的技术规范多股绞合导线横截面内积的测试方法钛及钛合金板、薄板及带材绕线电阻器用电阻丝铜基合金Vergt铸件的技术规范-7-astm系列标准目录astm标准号b272-02b276-91(2000)b277-95(2001)b279-04b280-03b281-88(2001)b283-04b286-02b294-92(2001)b296-03b298-99e1b299-01b301/b301m-04b302-02b306-02b308/b308m-02b311-93(2002)e1b312-96(2002)b313/b313m-02e1b315-99b316/b316m-02b317-02b319-91(2021)中文名称存有精制边缘的(合金钢或切削的)施明德铜制品(扁丝或拎)某些切削和切削有色金属及合金统一牌号基本建设标准惯例硬质合金表观孔隙率的测试方法电碰触材料硬度的测试方法生产磁导线用方形和矩形软裸铜线及铝线硬度的测试方法空气调节及空调设备用无缝铜管电镀层和转变镀层用铜和铜基合金的制取铜及铜合金甩模锻件(热压)电气设备用铜连接线硬质合金硬度的测试方法铸成和切削镁合金的淬火标志镀银的硬的或淬火的铜线海绵钛易切削铜条及铜棒并无螺纹铜管铜排水管(dwv)6061-t6型铝合金结构型材孔隙度大于2％的粉末冶金材料密度的标准测试方法金属粉末生压坯强度的测试方法冲压铝和铝合金圆管无缝铜合金管铝及铝合金铆钉和冷镦头线材与棒材的技术规范电气用侵蚀铝和铝合金棒、条、管及结构型材(汇流导体)电镀用铅和铅合金的制取-8-astm系列标准目录astm标准号b320-60(2021)e1b322-99b324-01b327-01e2b328-96(2021)b329-98(2021)e1b330-02b331-95(2002)b333-03b335-03b338-03b339-00b341/b341m-02b343-92a(2021)e1b344-01b345/b345m-02b348-03b349/b349m-03b350/b350m-02b351/b351m-02b352/b352m-02b353-02b354-98b355-95(2021)中文名称电镀用铁铸件的制取电镀前的金属冲洗电气用矩形和方形铝线压铸模合金用母合金的技术规范热处理金属结构零件和油浸轴承密度与互连多孔性的试验方法用斯科特(scott)容积计测量耐热金属粉末及化合物表观密度的试验方法用费歇尔亚捣分粒器测量耐热金属粉末及化合物的平均值粒度的试验方法单轴放大中金属粉末的可压缩性试验方法镍钼合金板、薄板和带材镍钼合金条材技术规范冷凝器和热交换器用无缝及冲压钛与钛合金管锡锭钢筋强化铝导线(acsr/az)用包铝钢芯线镍电镀用镍的制取切削或合金钢的镍铬和镍铬铁合金电热元件规范铝和铝合金无缝管和气体和石油传输和分配管道系统的无缝侵蚀成型管及的标准规范钛及钛合金厉害和坯锭核设施用海绵锆和其它形状的纯金属锆核设施用锌和锌合金铸锭核设施用钢材和冷加工锆及锆合金棒、条和线材核设施用锆及锆合金板、薄板和带材核设备用焖的无缝与冲压锆及锆合金管不绝缘的金属电导体的有关术语硬的或淬火的镀镍铜丝-9-astm系列标准目录astm标准号b359/b359m-02b360-01b361-02b362-91(2021)b363-03ab364-96(2002)b365-98(2021)b366-04ab367-93(2021)b368-97(2021)e1b369-96(2021)b370-03b371/b371m-02b372-97(2021)b373-00b374-96(2021)b379-04b380-97(2002)b381-03b386-03b387-90(2001)b388-00b389-81(2021)b390-92(2000)中文名称具备整体散热器叶片的冷凝器及热交换器用无缝铜和铜合金管限流器用冷拉铜毛细管工厂加工的焖铝及铝合金冲压配件恒温双金属制螺旋线圈的机械改变率为的试验方法无缝和冲压氢铵钛及钛合金冲压配件钽及钽合金铸锭钽及钽合金条和线材工厂加工的焖镍和镍合金冲压配件钛和钛合金铸件快速铜水解的醋酸盐喷雾试验(cass试验)铜镍合金铸件建筑结构用铜薄板和带材铜锌硅合金条规范无缝铜及铜合金矩形波导管电容器用铝箔电镀的有关术语减磷铜提炼型材装饰电镀层的涂膏密室耐腐蚀试验方法钛及钛合金锻件钼和钼合金板、薄板、带材和箔钼及钼合金棒、条和线材恒温双金属薄板和带材恒温双金属螺旋形线圈的热偏移率为的测试方法钨硬质合金表观晶粒度及其原产的测评-10-astm系列标准目录astm标准号b391-03b392-03b393-03b394-03b395/b395m-02b398/b398m-02b399/b399m-99b400-04b401-99b403-02b404/b404m-02b406-96(2000)b407-01b408-01b409-01b411/b411m-01b413-97a（2021） b415-98(2002)b416-98(2002)b417-00b418-01b422-04b423-03astm系列标准目录 astm标准号b425-99b427-02b428-93(2021)b429-02b430-97(2001)b432-04b434-00b435-03b438/b438m-04b439-00e1b440-00b441-04b443-00e1b444-03b446-03b447-02b449-93(2021)b452-02b453/b453m-01b455-01b456-03b457-67(2021)b462-04b463-04中文名称镍铁铬钼铜合金条及棒齿轮青铜合金铸件规范矩形和正方形铜和铜合金管扭转角的测试方法挤压制铝合金结构管用比浊法测定耐火金属粉末粒度分布的试验方法包铜及包铜合金的钢板镍钼铬铁合金板、薄板和带材统一编制牌号为no6002、no6230、n12160和r30556的板材和带材及牌号为n06002、n06230和r30556的带材青铜烧结轴承(油浸的)铁基烧结轴承(油浸的)镉铜钴铍及铜镍铍条和棒镍铬钼钶合金板、薄板和带材镍铬钼钶合金管镍铬钼钶合金条和棒焊接铜管铝的铬酸盐处理电子设备用包铜钢导线铜锌铅合金(含铅黄铜)条材铜锌铅合金（含铅黄铜）挤压型材技术规范铜+镍+铬及镍+铬的电解沉积镀层铝表面阳极镀层阻抗的测量方法腐蚀高温作业用锻制或轧制的unsno8020、unsno8024、unsno8026和unsno8367型合金管法兰、锻制配件、阀门及零件unsno8020、unsno8024和unsno8026合金板、薄板及带材-12-astm系列标准目录 astm标准号b464-04b465-04b466/b466m-03b467-88(2021)b468-04b470-02b472-04b473-96(2002)e1 b474-03b475-96(2002)e1 b476-01b477-97(2002)b478-85(2021)b479-00b480-88(2001)b481-68(2021)e1 b482-85(2021)b483/b483m-03b487-85(2002)b488-01b489-85(2021)b490-92(2021)b491/b491m-00b493-01(2021)中文名称焊接的unsno8020、no8024和no8026合金管铜铁合金板、薄板、带材和轧制棒材无缝铜镍合金管焊接铜镍管焊接的unsno8020、no8024和no8026合金管电子设备布线用连接铜导线再锻用unsno8020、unsno8026、unsno8024、unsno8926和unsno8367镍合金坯段和棒材unsno8020、unsno8026及unsno8024镍合金棒和线电熔焊的unsno8020、unsno8026和unsno8024镍合金管unsno8020、unsno8026及unsno8024镍合金圆编织线锻制贵金属电接触材料金银镍电接触合金恒温双金属横向弯曲率的测试方法挠性栅栏用退火铝及铝合金箔电镀用镁和镁合金的制备电镀用钛和钛合金的制备电镀用钨和钨合金的制备普通拉制铝及铝合金管用横断面显微观察法测定金属及氧化物涂层厚度的方法工程用电解沉积镀金层金属表面电解沉积和自动催化沉积金属镀层延展性的弯曲试验用测微计弯曲试验法测定电解沉积物的延展性普通挤压铝和铝合金圆管锆及锆合金锻件-13-astm系列标准目录astm标准号b494/b494m-03b495-01b496-04b497-00b499-96(2002)b501-99b502-02b504-90(2002)b505/b505m-02b507-86(2021)b508-97(2021)b511-01b512-04b514-95(2002)e1b515-95(2002)b517-03b520-93(2002)e1b521-98（2021）b522-01b523/b523m-02b524/b524m-99中文名称原生锆锆及锆合金铸锭紧密的圆形同心绞捻铜导线闭合电弧接点上电压降的测量用磁性法测量磁性基底金属的非磁性镀层厚度的方法电气用镀银包铜钢丝包铝钢芯加强的铝导线用包铝钢芯线用库仑法测量金属镀层厚度的试验方法连续浇铸的铜基合金铸件机件在支架上电镀的设计柔性金属软管用的铜合金带材规范镍铁铬硅合金棒材和型材规范镍铬硅合金（unsn08330）坯锭和棒材规范焊接镍铁铬合金管规范统一编制牌号为unsn08120、no8800、no8810和n0811焊接合金管规范焊接镍铬铁合金(unsn06600,unsn06603,unsn06025,和unsn06045）管规范焊接的镍铬铁合金(unsn06600,unsn06603,unsn06025,andunsn06045)管规范电子方面用镀锡包铜钢丝的规范钽和钽合金无缝和焊接管规范金银铂电接触合金规范无缝和焊接的锆及锆合金管材技术规范铝合金芯增强的同心绞捻铝导线(acar,1380/6201)b498/b498m-98(2002)钢芯加强的铝导线用镀锌钢芯线(acsr)b500/b500m-98(2002)钢芯加强的铝导线用镀金属层的钢芯线(acsr)-14-astm系列标准目录astm标准号b527-93(2000)e1b528-99b530-02b532-85(2002)b533-85(2021)b534-01b535-04b536-02b537-70(2002)b540-97(2002)b541-01b542-04b543-96(2021)b545-97(2021)e1b546-04b547/b547m-02b548-03b549-00b550/b550m-02b551/b551m-04b552-98（2021）b555-86(2002)b556-90(2002)中文名称用塔普-帕克(tap-pak)容量计测定耐火金属及化合物粉末的塔普(tap)密度的试验方法烧结金属粉末样品的横向断裂强度的试验方法用磁性法测量磁性和非磁性基底上的电解沉积镀镍层厚度的方法电镀塑料表面外观测量塑料表面金属镀层抗撕裂强度的标准试验方法铜钴铍合金及铜镍铍合金板、薄板、带材和轧制棒材镍铁铬硅合金无缝管镍铁铬硅合金板、薄板及带材评定电镀板在大气暴露情况下耐腐蚀性能的标准惯例电气连接的接触电阻的测量方法(静态接触)电接触用钯合金电接触用金合金电接点及其应用的相关术语焊接的铜及铜合金热交换管电解沉积锡镀层电熔焊接镍铬钴钼合金（n06617），镍铁铬硅合金（n08330和n08332）镍铬铁合金（n06025）和镍铬铁硅合金（n06045）管的技术规范铝及铝合金成形并用电弧焊焊接的圆管技术规范压力容器用铝合金板的超声波检验包铝钢芯加强的同芯绞捻铝导线(acsr/aw)锆及锆合金棒材和丝材技术规范锆及锆合金带材、薄板材和厚板材技术规范水淡化厂用无缝和焊接铜/镍管用滴定试验法测量电解沉积金属镀层厚度用点滴试验法测量薄镀铬层厚度-15-astm系列标准目录astm标准号b557-02ab558-79(2021)b559-93(2002)e1b560-00b561-94(1999)e1b562-95(1999)b563-01b564-04b565-04b566-04b567-98(2021)b568-98（2021）b569-04b570-01b571-97(2021)b572-03b573-00b574-04b575-04b576-94(1999)b577-93(2021)b578-87(1999)b579-73(2021)中文名称锻造和铸造的铝及镁合金制品的拉伸试验锻造及铸造铝和镁合金产品的拉伸试验(米制)电镀用镍合金的制备电气用镀镍包铜钢丝新锡铅合金精炼铂精炼金电接触用钯银铜合金镍合金锻件铝和铝合金铆钉及冷镦头丝与棒材的剪切试验包铜铝丝用β射线反向散射法测量镀层厚度的试验方法用x射线光度法测量镀层厚度的试验方法热交换管用窄薄型unsno.c26000黄铜带材铜铍合金锻件和挤压件金属镀层粘附性的试验方法统一编制牌号为no6002、no6230、n12160和r30556棒材（盘条）电镀技术规范镍钼铬铁合金棒低碳镍钼铬及低碳镍铬钼及低碳镍铬钼钨合金棒材的技术规范低碳镍钼铬、低碳镍铬钼、低碳镍铬钼铜合金及低碳镍铬钼钽合金板材的技术规范电接触材料的电弧侵蚀试验铜的氢脆试验方法电镀层显微硬度的测量方法锡铅合金的电解沉积镀层(焊接板)-16-astm系列标准目录astm标准号b580-79(2000)b581-02b582-02b584-04b587-97(2021)b588-88(2001)b589-94(1999)e1b591-98ab592-01b593-96(2021)e1b594-02b595-95(2000)b596-89(1999)b598-98(2021)b599-92(2021)e1b600-91(2002)b601-02b602-88(1999)b603-90(2001)b604-91(2021)e1b605-95a(2021)b606-02b607-91(2021)b608-02中文名称铝阳极氧化镀层镍铬铁钼铜合金条镍铬铁钼铜合金板、薄板及带材普通用铜合金砂型铸件焊接黄铜管用双束干涉显微技术测量透明涂层或不透明涂层厚度的试验方法精炼钯铜锌锡板、薄板、带材及轧制棒材铜锌铝钴板、薄板、带材及轧制棒材铜合金弹簧材料的弯曲疲劳试验航空设备用铝合金锻制品的超声波检验铝粉末烧结结构部件标准规范金铜合金电接触材料抗拉试验中铜合金偏置屈服强度的测定稳定的镍铁铬钼钶合金板、薄板及带材钛及钛合金表面的去垢和清洗锻造及铸造的铜和铜合金回火标志金属及无机涂层的计数抽样试验方法电热元件用拉制或轧制铁铬铝合金塑料表面装饰用铜加镍铬镀层锡镍合金电解沉积镀层规范钢芯加强的铝和铝合金导线用高强度镀锌(电镀)钢芯线工程用自动催化镍硼铸件焊接铜合金管-17-astm系列标准目录astm标准号b610-00e1b611-85(2000)e1b612-00b613-76(2000)b614-95(2000)b615-79(2000)b616-96(2000)b617-98(2021)b618-03b619-04b620-03b621-02b624-99b625-04b626-04b628-98（2021）b629-77(2021)b630-88(2001)b631-93(2021)b632/b632m-02b633-98e1b634-88(2021)e1中文名称测量金属粉末样品因热处理产生尺寸变化的试验方法硬质合金的耐磨性的试验方法铁青铜热处理轴承(油浸的)滑动电触点用复合材料的微型电刷制取规范锆及锆合金表面的去垢与冲洗测量滑动电触点电碰触噪音提炼铑电气接点用银币合金铝合金熔模铸件技术规范冲压的镍和镍钴合金管镍铁铬钼合金板、薄板及带材镍铁铬钼合金条无缝镍和镍钴合金管电子设备用高强度低传导率铜合金线unsno8904、unsno8925、unsno8031、unsno8932和unsno8926板、薄板及带材冲压的镍和镍钴合金管电碰触用银铜共晶合金电镀用钼和钼合金的制取电镀用铬的制取银钨电碰触材料铝合金合金钢提振板钢铁表面的电沉积锌镀层工程用铑电解沉积镀层b609/b609m-99（2021电气用淬火及中温淬火的1350型铝圆线-18-astm系列标准目录astm标准号b635-00(2021)e1b636-84(2001)b637-03b639-02b640-00b643-00e1b644-95(2021)b646-04b647-84(2000)b648-78(2000)b649-02b650-95(2002)b651-83(2001)b652/b652m-04b653/b653m-02b654/b654m-04b655/b655m-04b657-92(2000)b658/b658m-02b659-90(2021)b660-02b661-03b662-94(2000)中文名称镉锡机械沉积镀层用螺旋膨胀仪测量电镀金属镀层内应力的方法高温设备用结晶淬火镍合金棒、锻件及切削坯料的制取高温用沉积硬化钴合金(unsr30155andunsr30816)条材、棒材、锻件和切削坯料空调及空调设备用冲压铜及铜合金管及铜铍合金无缝管铜合金添加剂铝合金的平面快速反应断裂韧性试验铝合金断裂韧性试验用佩氏硬度仪测量铝合金压痕硬度的试验方法用巴氏压痕仪测量铝合金压痕硬度的试验方法镍铁铬钼铜低碳合金和镍铁铬钼铜氮低碳合金棒材及线材铁基物上电沉积工程镀铬层用双束干预显微镜测量镍+铬或铜+镍+铬电镀表面锈蚀部位的试验方法铌铪合金铸锭无缝和冲压锆及锆合金冲压管配件技术规范铌-铪再分金箔、薄板、带材和中厚板铌铪合金棒材,棍材和线硬质钨金微观结构的金相测定方法无缝和冲压锆及锆合金管道技术规范金属和无机物镀层厚度的测量方法铝及镁制品的外包装/装箱镁合金的热处理银钼电碰触材料-19-。

铝板检验报告**铝板检验报告**报告编号：AL-20210501检验日期：2021年5月1日检验对象：厚度为6mm的6061-T6铝板（以下简称“被试材料”）一、检验目的本次检验旨在验证被试材料的化学成分、物理性质是否符合相关标准和合同要求，为产品质量控制提供依据。

二、检验方法对被试材料进行以下检验：1.化学成分检验：采用光谱分析法，检测样品中铝、镁、硅、铁、铜、锰、锌、钛、铬、镉等元素的含量。

2.力学性能检验：采用机械试验法，测定样品的抗拉强度、屈服强度、延伸率、冲击韧性等物理性质。

3.表面质量检验：采用肉眼和放大镜观察法，检查样品表面是否有氧化、皮纹、划痕、气泡等缺陷。

三、检验结果1.化学成分：经检验，被试材料中铝、镁、硅、铁、铜、锰、锌、钛、铬、镉等元素的含量均符合ASTM B221标准和合同要求，化学成分合格。

2.力学性能：被试材料的抗拉强度为335MPa，屈服强度为310MPa，延伸率为12%，冲击韧性为22J/cm2，各项物理性质符合ASTM B209标准和合同要求，力学性能合格。

3.表面质量：经肉眼观察和放大镜检查，被试材料表面平整光滑，无氧化、皮纹、划痕、气泡等缺陷，表面质量合格。

四、结论经过本次检验，被试材料的化学成分、物理性质和表面质量均符合相关标准和合同要求，可接受。

五、建议1.在生产过程中，应加强对原材料的选择和控制，确保被试材料的化学成分符合要求。

2.在生产过程中，应加强对加工工艺和环境的控制，以减少被试材料表面质量缺陷的产生。

六、附录ASTM B221标准ASTM B209标准。

astm b 铜材标准ASTM B铜材标准ASTM（美国材料与试验协会）是一个提供制造、测试和分类工业材料和产品标准的国际标准化组织。

在他们的标准文件B88-20a中，ASTM针对铜材进行了详细的规范。

本文将介绍ASTM B铜材标准的背景和重要内容。

1. 引言ASTM B标准是用于铜材的标准规范，旨在确保铜材的质量、性能和相容性。

该标准适用于各种铜合金材料，包括管材、板材、棒材和线材等。

标准中包含了铜材的化学成分、物理性质、机械性能和测试方法等方面的要求。

2. 材料分类ASTM B标准将铜材分为以下几类：2.1 纯铜材料：也称为C类铜材，指化学成分中含铜量达到99.3%以上的铜材。

2.2 低合金铜材：包括C100、C101、C103等牌号的材料，其化学成分中除铜外还含有少量的杂质。

2.3 铜镍合金材料：包括C71000、C71500等牌号的材料，用于制造海水工程设备和海洋环境下使用的零部件等。

2.4 铜硅合金材料：包括C64700、C65500等牌号的材料，具有良好的耐磨性和高温蠕变性能，在摩擦材料和高温工况下使用广泛。

2.5 其他合金材料：还包括铜锡合金、铜铝合金、铜锌合金等多种类型的铜材。

3. 化学成分要求ASTM B标准对不同类型的铜材的化学成分有详细的要求。

例如，对于纯铜材料，其化学成分中除铜以外的其他元素的含量应符合标准规定。

此外，对于低合金铜材、铜镍合金材料和铜硅合金材料等，各种元素的含量也有相应的限制。

4. 物理性能要求ASTM B标准还对铜材的物理性能提出了一系列要求。

例如，对于铜管材，标准规定了管材的壁厚、外径、内径等尺寸要求。

对于铜板材和铜棒材，标准规定了其厚度、宽度、长度和平直度等要求。

此外，对于铜线材，标准还规定了其直径、强度和伸长率等参数要求。

5. 机械性能要求ASTM B标准中对铜材的机械性能也有所规定。

标准要求对铜材进行拉伸测试、硬度测定、冲击试验等，以评估其力学性能。